Publications
2020
Méteignier Louis-Valentin, Ghandour Rabea, Meierhoff Karin, Zimmerman Aude, Chicher Johana, Baumberger Nicolas, Alioua Abdelmalek, Meurer Jörg, Zoschke Reimo, Hammani Kamel
The Arabidopsis mTERF-repeat MDA1 protein plays a dual function in transcription and stabilization of specific chloroplast transcripts within the psbE and ndhH operons. Article de journal
Dans: The New phytologist, vol. 227, no. 5, p. 1376–1391, 2020, ISSN: 1469-8137 0028-646X 0028-646X.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{meteignier_arabidopsis_2020,
title = {The Arabidopsis mTERF-repeat MDA1 protein plays a dual function in transcription and stabilization of specific chloroplast transcripts within the psbE and ndhH operons.},
author = {Louis-Valentin Méteignier and Rabea Ghandour and Karin Meierhoff and Aude Zimmerman and Johana Chicher and Nicolas Baumberger and Abdelmalek Alioua and Jörg Meurer and Reimo Zoschke and Kamel Hammani},
doi = {10.1111/nph.16625},
issn = {1469-8137 0028-646X 0028-646X},
year = {2020},
date = {2020-01-01},
journal = {The New phytologist},
volume = {227},
number = {5},
pages = {1376--1391},
abstract = {The mTERF gene family encodes for nucleic acid binding proteins that are predicted to regulate organellar gene expression in eukaryotes. Despite the implication of this gene family in plant development and response to abiotic stresses, a precise molecular function was assigned to only a handful number of its c. 30 members in plants. Using a reverse genetics approach in Arabidopsis thaliana and combining molecular and biochemical techniques, we revealed new functions for the chloroplast mTERF protein, MDA1. We demonstrated that MDA1 associates in vivo with components of the plastid-encoded RNA polymerase and transcriptional active chromosome complexes. MDA1 protein binds in vivo and in vitro with specificity to 27-bp DNA sequences near the 5'-end of psbE and ndhA chloroplast genes to stimulate their transcription, and additionally promotes the stabilization of the 5'-ends of processed psbE and ndhA messenger (m)RNAs. Finally, we provided evidence that MDA1 function in gene transcription likely coordinates RNA folding and the action of chloroplast RNA-binding proteins on mRNA stabilization. Our results provide examples for the unexpected implication of DNA binding proteins and gene transcription in the regulation of mRNA stability in chloroplasts, blurring the boundaries between DNA and RNA metabolism in this organelle.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Chico Jose Manuel, Lechner Esther, Fernandez-Barbero Gemma, Canibano Esther, García-Casado Gloria, Franco-Zorrilla Jose Manuel, Hammann Philippe, Zamarreño Angel M, García-Mina Jose M, Rubio Vicente, Genschik Pascal, Solano Roberto
CUL3(BPM) E3 ubiquitin ligases regulate MYC2, MYC3, and MYC4 stability and JA responses. Article de journal
Dans: Proceedings of the National Academy of Sciences of the United States of America, vol. 117, no. 11, p. 6205–6215, 2020, ISSN: 1091-6490 0027-8424 0027-8424.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{chico_cul3bpm_2020,
title = {CUL3(BPM) E3 ubiquitin ligases regulate MYC2, MYC3, and MYC4 stability and JA responses.},
author = {Jose Manuel Chico and Esther Lechner and Gemma Fernandez-Barbero and Esther Canibano and Gloria García-Casado and Jose Manuel Franco-Zorrilla and Philippe Hammann and Angel M Zamarreño and Jose M García-Mina and Vicente Rubio and Pascal Genschik and Roberto Solano},
doi = {10.1073/pnas.1912199117},
issn = {1091-6490 0027-8424 0027-8424},
year = {2020},
date = {2020-01-01},
journal = {Proceedings of the National Academy of Sciences of the United States of America},
volume = {117},
number = {11},
pages = {6205--6215},
abstract = {The jasmonate (JA)-pathway regulators MYC2, MYC3, and MYC4 are central nodes in plant signaling networks integrating environmental and developmental signals to fine-tune JA defenses and plant growth. Continuous activation of MYC activity is potentially lethal. Hence, MYCs need to be tightly regulated in order to optimize plant fitness. Among the increasing number of mechanisms regulating MYC activity, protein stability is arising as a major player. However, how the levels of MYC proteins are modulated is still poorly understood. Here, we report that MYC2, MYC3, and MYC4 are targets of BPM (BTB/POZ-MATH) proteins, which act as substrate adaptors of CUL3-based E3 ubiquitin ligases. Reduction of function of CUL3(BPM) in amiR-bpm lines, bpm235 triple mutants, and cul3ab double mutants enhances MYC2 and MYC3 stability and accumulation and potentiates plant responses to JA such as root-growth inhibition and MYC-regulated gene expression. Moreover, MYC3 polyubiquitination levels are reduced in amiR-bpm lines. BPM3 protein is stabilized by JA, suggesting a negative feedback regulatory mechanism to control MYC activity, avoiding harmful runaway responses. Our results uncover a layer for JA-pathway regulation by CUL3(BPM)-mediated degradation of MYC transcription factors.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Bochler A, Querido J B, Prilepskaja T, Soufari H, Simonetti A, Cistia M L Del, Kuhn L, Ribeiro A R, Valášek L S, Hashem Y
Structural Differences in Translation Initiation between Pathogenic Trypanosomatids and Their Mammalian Hosts Article de journal
Dans: Cell Rep, vol. 33, no. 12, p. 108534, 2020, ISBN: 33357443.
Résumé | Liens | BibTeX | Étiquettes: ENNIFAR, ES6(S) ES7(S) ES9(S) Trypanosoma cruzi cryo-EM eIF1 eIF2 eIF3 eIF5-CTD k-DDX60 the 43S pre-initiation complex translation initiation, HASCHEM, PPSE, Unité ARN
@article{,
title = {Structural Differences in Translation Initiation between Pathogenic Trypanosomatids and Their Mammalian Hosts},
author = {A Bochler and J B Querido and T Prilepskaja and H Soufari and A Simonetti and M L Del Cistia and L Kuhn and A R Ribeiro and L S Valášek and Y Hashem},
url = {https://pubmed.ncbi.nlm.nih.gov/33357443/},
doi = {10.1016/j.celrep.2020.108534},
isbn = {33357443},
year = {2020},
date = {2020-01-01},
urldate = {2020-01-01},
journal = {Cell Rep},
volume = {33},
number = {12},
pages = {108534},
abstract = {Canonical mRNA translation in eukaryotes begins with the formation of the 43S pre-initiation complex (PIC). Its assembly requires binding of initiator Met-tRNAiMet and several eukaryotic initiation factors (eIFs) to the small ribosomal subunit (40S). Compared to their mammalian hosts, trypanosomatids present significant structural differences in their 40S, suggesting substantial variability in translation initiation. Here, we determine the structure of the 43S PIC from Trypanosoma cruzi, the parasite causing Chagas disease. Our structure shows numerous specific features, such as the variant eIF3 structure and its unique interactions with the large rRNA expansion segments (ESs) 9S, 7S, and 6S, and the association of a kinetoplastid-specific DDX60-like helicase. It also reveals the 40S-binding site of the eIF5 C-terminal domain and structures of key terminal tails of several conserved eIFs underlying their activities within the PIC. Our results are corroborated by glutathione S-transferase (GST) pull-down assays in both human and T. cruzi and mass spectrometry data.},
keywords = {ENNIFAR, ES6(S) ES7(S) ES9(S) Trypanosoma cruzi cryo-EM eIF1 eIF2 eIF3 eIF5-CTD k-DDX60 the 43S pre-initiation complex translation initiation, HASCHEM, PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
2019
Bouchoucha Ayoub, Waltz Florent, Bonnard Géraldine, Arrivé Mathilde, Hammann Philippe, Kuhn Lauriane, Schelcher Cédric, Zuber Hélène, Gobert Anthony, Giegé Philippe
Determination of protein-only RNase P interactome in Arabidopsis mitochondria and chloroplasts identifies a complex between PRORP1 and another NYN domain nuclease. Article de journal
Dans: The Plant journal : for cell and molecular biology, vol. 100, no. 3, p. 549–561, 2019, ISSN: 1365-313X 0960-7412.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{bouchoucha_determination_2019,
title = {Determination of protein-only RNase P interactome in Arabidopsis mitochondria and chloroplasts identifies a complex between PRORP1 and another NYN domain nuclease.},
author = {Ayoub Bouchoucha and Florent Waltz and Géraldine Bonnard and Mathilde Arrivé and Philippe Hammann and Lauriane Kuhn and Cédric Schelcher and Hélène Zuber and Anthony Gobert and Philippe Giegé},
doi = {10.1111/tpj.14458},
issn = {1365-313X 0960-7412},
year = {2019},
date = {2019-11-01},
journal = {The Plant journal : for cell and molecular biology},
volume = {100},
number = {3},
pages = {549--561},
abstract = {The essential type of endonuclease that removes 5' leader sequences from transfer RNA precursors is called RNase P. While ribonucleoprotein RNase P enzymes containing a ribozyme are found in all domains of life, another type of RNase P called 'PRORP', for 'PROtein-only RNase P', is composed of protein that occurs only in a wide variety of eukaryotes, in organelles and in the nucleus. Here, to find how PRORP functions integrate with other cell processes, we explored the protein interaction network of PRORP1 in Arabidopsis mitochondria and chloroplasts. Although PRORP proteins function as single subunit enzymes in vitro, we found that PRORP1 occurs in protein complexes and is present in high-molecular-weight fractions that contain mitochondrial ribosomes. The analysis of immunoprecipitated protein complexes identified proteins involved in organellar gene expression processes. In particular, direct interaction was established between PRORP1 and MNU2 a mitochondrial nuclease. A specific domain of MNU2 and a conserved signature of PRORP1 were found to be directly accountable for this protein interaction. Altogether, results revealed the existence of an RNA maturation complex in Arabidopsis mitochondria and suggested that PRORP proteins cooperated with other gene expression factors for RNA maturation in vivo.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Lange Heike, Ndecky Simon Y A, Gomez-Diaz Carlos, Pflieger David, Butel Nicolas, Zumsteg Julie, Kuhn Lauriane, Piermaria Christina, Chicher Johana, Christie Michael, Karaaslan Ezgi S, Lang Patricia L M, Weigel Detlef, Vaucheret Hervé, Hammann Philippe, Gagliardi Dominique
RST1 and RIPR connect the cytosolic RNA exosome to the Ski complex in Arabidopsis. Article de journal
Dans: Nature communications, vol. 10, no. 1, p. 3871, 2019, ISSN: 2041-1723 2041-1723.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{lange_rst1_2019,
title = {RST1 and RIPR connect the cytosolic RNA exosome to the Ski complex in Arabidopsis.},
author = {Heike Lange and Simon Y A Ndecky and Carlos Gomez-Diaz and David Pflieger and Nicolas Butel and Julie Zumsteg and Lauriane Kuhn and Christina Piermaria and Johana Chicher and Michael Christie and Ezgi S Karaaslan and Patricia L M Lang and Detlef Weigel and Hervé Vaucheret and Philippe Hammann and Dominique Gagliardi},
doi = {10.1038/s41467-019-11807-4},
issn = {2041-1723 2041-1723},
year = {2019},
date = {2019-08-01},
journal = {Nature communications},
volume = {10},
number = {1},
pages = {3871},
abstract = {The RNA exosome is a key 3'-5' exoribonuclease with an evolutionarily conserved structure and function. Its cytosolic functions require the co-factors SKI7 and the Ski complex. Here we demonstrate by co-purification experiments that the ARM-repeat protein RESURRECTION1 (RST1) and RST1 INTERACTING PROTEIN (RIPR) connect the cytosolic Arabidopsis RNA exosome to the Ski complex. rst1 and ripr mutants accumulate RNA quality control siRNAs (rqc-siRNAs) produced by the post-transcriptional gene silencing (PTGS) machinery when mRNA degradation is compromised. The small RNA populations observed in rst1 and ripr mutants are also detected in mutants lacking the RRP45B/CER7 core exosome subunit. Thus, molecular and genetic evidence supports a physical and functional link between RST1, RIPR and the RNA exosome. Our data reveal the existence of additional cytosolic exosome co-factors besides the known Ski subunits. RST1 is not restricted to plants, as homologues with a similar domain architecture but unknown function exist in animals, including humans.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Lalaouna D, Baude J, Wu Z, Tomasini A, Chicher J, Marzi S, Vandenesch F, Romby P, Caldelari I, Moreau K
RsaC sRNA modulates the oxidative stress response of Staphylococcus aureus during manganese starvation Article de journal
Dans: Nucleic Acids Res, vol. 47, no. 18, p. 9871-9887, 2019, ISBN: 31504767.
Résumé | Liens | BibTeX | Étiquettes: PPSE, ROMBY, Unité ARN
@article{Lalaouna2019,
title = {RsaC sRNA modulates the oxidative stress response of \textit{Staphylococcus aureus} during manganese starvation},
author = {D Lalaouna and J Baude and Z Wu and A Tomasini and J Chicher and S Marzi and F Vandenesch and P Romby and I Caldelari and K Moreau},
url = {https://www.ncbi.nlm.nih.gov/pubmed/31504767?dopt=Abstract},
doi = {10.1093/nar/gkz728},
isbn = {31504767},
year = {2019},
date = {2019-01-01},
journal = {Nucleic Acids Res},
volume = {47},
number = {18},
pages = {9871-9887},
abstract = {The human opportunistic pathogen Staphylococcus aureus produces numerous small regulatory RNAs (sRNAs) for which functions are still poorly understood. Here, we focused on an atypical and large sRNA called RsaC. Its length varies between different isolates due to the presence of repeated sequences at the 5′ end while its 3′ part is structurally independent and highly conserved. Using MS2-affinity purification coupled with RNA sequencing (MAPS) and quantitative differential proteomics, sodA mRNA was identified as a primary target of RsaC sRNA. SodA is a Mn-dependent superoxide dismutase involved in oxidative stress response. Remarkably, rsaC gene is co-transcribed with the major manganese ABC transporter MntABC and, consequently, RsaC is mainly produced in response to Mn starvation. This 3′UTR-derived sRNA is released from mntABC-RsaC precursor after cleavage by RNase III. The mature and stable form of RsaC inhibits the synthesis of the Mn-containing enzyme SodA synthesis and favors the oxidative stress response mediated by SodM, an alternative SOD enzyme using either Mn or Fe as co-factor. In addition, other putative targets of RsaC are involved in oxidative stress (ROS and NOS) and metal homeostasis (Fe and Zn). Consequently, RsaC may balance two interconnected defensive responses, i.e. oxidative stress and metal-dependent nutritional immunity.},
keywords = {PPSE, ROMBY, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Arbogast Florent, Arnold Johan, Hammann Philippe, Kuhn Lauriane, Chicher Johana, Murera Diane, Weishaar Justine, Muller Sylviane, Fauny Jean-Daniel, Gros Frédéric
ATG5 is required for B cell polarization and presentation of particulate antigens. Article de journal
Dans: Autophagy, vol. 15, no. 2, p. 280–294, 2019, ISSN: 1554-8635 1554-8627 1554-8627.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{arbogast_atg5_2019,
title = {ATG5 is required for B cell polarization and presentation of particulate antigens.},
author = {Florent Arbogast and Johan Arnold and Philippe Hammann and Lauriane Kuhn and Johana Chicher and Diane Murera and Justine Weishaar and Sylviane Muller and Jean-Daniel Fauny and Frédéric Gros},
doi = {10.1080/15548627.2018.1516327},
issn = {1554-8635 1554-8627 1554-8627},
year = {2019},
date = {2019-01-01},
journal = {Autophagy},
volume = {15},
number = {2},
pages = {280--294},
abstract = {The involvement of macroautophagy/autophagy proteins in B-cell receptor (BCR) trafficking, although suspected, is not well understood. We show that ATG5 (autophagy related 5) contributes to BCR polarization after stimulation and internalization into LAMP1 (lysosomal-associated membrane protein 1)(+) and major histocompatibility complex class II (MHC-II)(+) compartments. BCR polarization is crucial in the context of immobilized antigen processing. Moreover, antigen presentation to cognate T cells is decreased in the absence of ATG5 when the model antigen OVAL/ovalbumin is provided in an immobilized form in contrast to the normal presentation of soluble OVAL. We further show that ATG5 is required for centrosome polarization and actin nucleation in the immune synapse area. This event is accompanied by an increased interaction between ATG16L1 (autophagy related 16-like 1 [S. cerevisiae]) and the microtubule-organizing center-associated protein PCM1 (pericentriolar material 1). In the human B cell line BJAB, PCM1 is required for BCR polarization after stimulation. We thus propose that the ATG12 (autophagy related 12)-ATG5-ATG16L1 complex under BCR stimulation allows its interaction with PCM1 and consequently facilitates centrosome relocalization to the immune synapse, optimizing the presentation of particulate antigens. Abbreviations: ACTB: actin beta; ACTR2/3: ARP2/3 actin-related protein 2/3; APC: antigen-presenting cells; ATG: autophagy-related; BCR: B cell receptor; BECN1/Beclin 1: beclin 1, autophagy related; CDC42: cell division cycle 42; Cr2: complement receptor 2; CSFE: carboxyfluorescein succinimidyl ester; DAPI: 4',6-diamidino-2-phenylindole dihydrochloride; EEA1: early endosome antigen 1; ELISA: enzyme-linked immunosorbent assay; FITC: fluorescein isothyocyanate; GC: germinal center; GJA1/CX3: gap junction protein, alpha 1; Ig: immunoglobulin; LAMP1: lysosomal-associated membrane protein 1; LAP: LC3-associated phagocytosis; LM: littermate; MAP1LC3/LC3: microtubule-associated protein 1 light chain 3; MAPK/ERK: mitogen activated protein kinase; MHC-II: major histocompatibility complex class II; MIIC: MHC class II compartment; OVAL: ovalbumin; PBS: phosphate-buffered saline; PCM1: pericentriolar material 1; PtdIns3K: phosphatidylinositol 3-kinase; PTPRC/CD45RB/B220; Protein tyrosine phosphatase, receptor type, C; SYK: spleen tyrosine kinase; TBS: Tris-buffered saline; TCR: T cell receptor; ULK1: unc-51 like kinase 1.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Waltz Florent, Nguyen Tan-Trung, Arrivé Mathilde, Bochler Anthony, Chicher Johana, Hammann Philippe, Kuhn Lauriane, Quadrado Martine, Mireau Hakim, Hashem Yaser, Giegé Philippe
Small is big in Arabidopsis mitochondrial ribosome. Article de journal
Dans: Nature plants, vol. 5, no. 1, p. 106–117, 2019, ISSN: 2055-0278 2055-0278.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{waltz_small_2019,
title = {Small is big in Arabidopsis mitochondrial ribosome.},
author = {Florent Waltz and Tan-Trung Nguyen and Mathilde Arrivé and Anthony Bochler and Johana Chicher and Philippe Hammann and Lauriane Kuhn and Martine Quadrado and Hakim Mireau and Yaser Hashem and Philippe Giegé},
doi = {10.1038/s41477-018-0339-y},
issn = {2055-0278 2055-0278},
year = {2019},
date = {2019-01-01},
journal = {Nature plants},
volume = {5},
number = {1},
pages = {106--117},
abstract = {Mitochondria are responsible for energy production through aerobic respiration, and represent the powerhouse of eukaryotic cells. Their metabolism and gene expression processes combine bacterial-like features and traits that evolved in eukaryotes. Among mitochondrial gene expression processes, translation remains the most elusive. In plants, while numerous pentatricopeptide repeat (PPR) proteins are involved in all steps of gene expression, their function in mitochondrial translation remains unclear. Here we present the biochemical characterization of Arabidopsis mitochondrial ribosomes and identify their protein subunit composition. Complementary biochemical approaches identified 19 plant-specific mitoribosome proteins, of which ten are PPR proteins. The knockout mutations of ribosomal PPR (rPPR) genes result in distinct macroscopic phenotypes, including lethality and severe growth delay. The molecular analysis of rppr1 mutants using ribosome profiling, as well as the analysis of mitochondrial protein levels, demonstrate rPPR1 to be a generic translation factor that is a novel function for PPR proteins. Finally, single-particle cryo-electron microscopy (cryo-EM) reveals the unique structural architecture of Arabidopsis mitoribosomes, characterized by a very large small ribosomal subunit, larger than the large subunit, bearing an additional RNA domain grafted onto the head. Overall, our results show that Arabidopsis mitoribosomes are substantially divergent from bacterial and other eukaryote mitoribosomes, in terms of both structure and protein content.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Trinquier Aude, Ulmer Jonathan E, Gilet Laetitia, Figaro Sabine, Hammann Philippe, Kuhn Lauriane, Braun Frédérique, Condon Ciarán
tRNA Maturation Defects Lead to Inhibition of rRNA Processing via Synthesis of pppGpp. Article de journal
Dans: Molecular cell, vol. 74, no. 6, p. 1227–1238.e3, 2019, ISSN: 1097-4164 1097-2765.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{trinquier_trna_2019,
title = {tRNA Maturation Defects Lead to Inhibition of rRNA Processing via Synthesis of pppGpp.},
author = {Aude Trinquier and Jonathan E Ulmer and Laetitia Gilet and Sabine Figaro and Philippe Hammann and Lauriane Kuhn and Frédérique Braun and Ciarán Condon},
doi = {10.1016/j.molcel.2019.03.030},
issn = {1097-4164 1097-2765},
year = {2019},
date = {2019-01-01},
journal = {Molecular cell},
volume = {74},
number = {6},
pages = {1227--1238.e3},
abstract = {rRNAs and tRNAs universally require processing from longer primary transcripts to become functional for translation. Here, we describe an unsuspected link between tRNA maturation and the 3' processing of 16S rRNA, a key step in preparing the small ribosomal subunit for interaction with the Shine-Dalgarno sequence in prokaryotic translation initiation. We show that an accumulation of either 5' or 3' immature tRNAs triggers RelA-dependent production of the stringent response alarmone (p)ppGpp in the Gram-positive model organism Bacillus subtilis. The accumulation of (p)ppGpp and accompanying decrease in GTP levels specifically inhibit 16S rRNA 3' maturation. We suggest that cells can exploit this mechanism to sense potential slowdowns in tRNA maturation and adjust rRNA processing accordingly to maintain the appropriate functional balance between these two major components of the translation apparatus.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
2018
Olmo Roenick P, Ferreira Alvaro G A, Izidoro-Toledo Tatiane C, Aguiar Eric R G R, de Faria Isaque J S, de Souza Kátia P R, Osório Kátia P, Kuhn Lauriane, Hammann Philippe, de Andrade Elisa G, Todjro Yaovi Mathias, Rocha Marcele N, Leite Thiago H J F, Amadou Siad C G, Armache Juliana N, Paro Simona, de Oliveira Caroline D, Carvalho Fabiano D, Moreira Luciano A, Marois Eric, Imler Jean-Luc, Marques João T
Control of dengue virus in the midgut of Aedes aegypti by ectopic expression of the dsRNA-binding protein Loqs2. Article de journal
Dans: Nature microbiology, vol. 3, no. 12, p. 1385–1393, 2018, ISSN: 2058-5276 2058-5276.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{olmo_control_2018,
title = {Control of dengue virus in the midgut of Aedes aegypti by ectopic expression of the dsRNA-binding protein Loqs2.},
author = {Roenick P Olmo and Alvaro G A Ferreira and Tatiane C Izidoro-Toledo and Eric R G R Aguiar and Isaque J S de Faria and Kátia P R de Souza and Kátia P Osório and Lauriane Kuhn and Philippe Hammann and Elisa G de Andrade and Yaovi Mathias Todjro and Marcele N Rocha and Thiago H J F Leite and Siad C G Amadou and Juliana N Armache and Simona Paro and Caroline D de Oliveira and Fabiano D Carvalho and Luciano A Moreira and Eric Marois and Jean-Luc Imler and João T Marques},
doi = {10.1038/s41564-018-0268-6},
issn = {2058-5276 2058-5276},
year = {2018},
date = {2018-12-01},
journal = {Nature microbiology},
volume = {3},
number = {12},
pages = {1385--1393},
abstract = {Dengue virus (DENV) is an arbovirus transmitted to humans by Aedes mosquitoes(1). In the insect vector, the small interfering RNA (siRNA) pathway is an important antiviral mechanism against DENV(2-5). However, it remains unclear when and where the siRNA pathway acts during the virus cycle. Here, we show that the siRNA pathway fails to efficiently silence DENV in the midgut of Aedes aegypti although it is essential to restrict systemic replication. Accumulation of DENV-derived siRNAs in the midgut reveals that impaired silencing results from a defect downstream of small RNA biogenesis. Notably, silencing triggered by endogenous and exogenous dsRNAs remained effective in the midgut where known components of the siRNA pathway, including the double-stranded RNA (dsRNA)-binding proteins Loquacious and r2d2, had normal expression levels. We identified an Aedes-specific paralogue of loquacious and r2d2, hereafter named loqs2, which is not expressed in the midgut. Loqs2 interacts with Loquacious and r2d2 and is required to control systemic replication of DENV and also Zika virus. Furthermore, ectopic expression of Loqs2 in the midgut of transgenic mosquitoes is sufficient to restrict DENV replication and dissemination. Together, our data reveal a mechanism of tissue-specific regulation of the mosquito siRNA pathway controlled by Loqs2.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Chicois Clara, Scheer Hélène, Garcia Shahïnez, Zuber Hélène, Mutterer Jérôme, Chicher Johana, Hammann Philippe, Gagliardi Dominique, Garcia Damien
The UPF1 interactome reveals interaction networks between RNA degradation and translation repression factors in Arabidopsis. Article de journal
Dans: The Plant journal : for cell and molecular biology, vol. 96, no. 1, p. 119–132, 2018, ISSN: 1365-313X 0960-7412, (Place: England).
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{chicois_upf1_2018,
title = {The UPF1 interactome reveals interaction networks between RNA degradation and translation repression factors in Arabidopsis.},
author = {Clara Chicois and Hélène Scheer and Shahïnez Garcia and Hélène Zuber and Jérôme Mutterer and Johana Chicher and Philippe Hammann and Dominique Gagliardi and Damien Garcia},
doi = {10.1111/tpj.14022},
issn = {1365-313X 0960-7412},
year = {2018},
date = {2018-10-01},
journal = {The Plant journal : for cell and molecular biology},
volume = {96},
number = {1},
pages = {119--132},
abstract = {The RNA helicase UP-FRAMESHIFT (UPF1) is a key factor of nonsense-mediated decay (NMD), a mRNA decay pathway involved in RNA quality control and in the fine-tuning of gene expression. UPF1 recruits UPF2 and UPF3 to constitute the NMD core complex, which is conserved across eukaryotes. No other components of UPF1-containing ribonucleoproteins (RNPs) are known in plants, despite its key role in regulating gene expression. Here, we report the identification of a large set of proteins that co-purify with the Arabidopsis UPF1, either in an RNA-dependent or RNA-independent manner. We found that like UPF1, several of its co-purifying proteins have a dual localization in the cytosol and in P-bodies, which are dynamic structures formed by the condensation of translationally repressed mRNPs. Interestingly, more than half of the proteins of the UPF1 interactome also co-purify with DCP5, a conserved translation repressor also involved in P-body formation. We identified a terminal nucleotidyltransferase, ribonucleases and several RNA helicases among the most significantly enriched proteins co-purifying with both UPF1 and DCP5. Among these, RNA helicases are the homologs of DDX6/Dhh1, known as translation repressors in humans and yeast, respectively. Overall, this study reports a large set of proteins associated with the Arabidopsis UPF1 and DCP5, two components of P-bodies, and reveals an extensive interaction network between RNA degradation and translation repression factors. Using this resource, we identified five hitherto unknown components of P-bodies in plants, pointing out the value of this dataset for the identification of proteins potentially involved in translation repression and/or RNA degradation.},
note = {Place: England},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Goto Akira, Okado Kiyoshi, Martins Nelson, Cai Hua, Barbier Vincent, Lamiable Olivier, Troxler Laurent, Santiago Estelle, Kuhn Lauriane, Paik Donggi, Silverman Neal, Holleufer Andreas, Hartmann Rune, Liu Jiyong, Peng Tao, Hoffmann Jules A, Meignin Carine, Daeffler Laurent, Imler Jean-Luc
The Kinase IKKβ Regulates a STING- and NF-κB-Dependent Antiviral Response Pathway in Drosophila Article de journal
Dans: Immunity, no. 49, p. 225-234, 2018.
Résumé | Liens | BibTeX | Étiquettes: hoffmann, imler, M3i, meignin, PPSE
@article{Goto2018,
title = {The Kinase IKKβ Regulates a STING- and NF-κB-Dependent Antiviral Response Pathway in Drosophila},
author = {Akira Goto and Kiyoshi Okado and Nelson Martins and Hua Cai and Vincent Barbier and Olivier Lamiable and Laurent Troxler and Estelle Santiago and Lauriane Kuhn and Donggi Paik and Neal Silverman and Andreas Holleufer and Rune Hartmann and Jiyong Liu and Tao Peng and Jules A Hoffmann and Carine Meignin and Laurent Daeffler and Jean-Luc Imler},
editor = {Elsevier Inc.},
url = {https://doi.org/10.1016/j.immuni.2018.07.013},
doi = {j.immuni.2018.07.013},
year = {2018},
date = {2018-08-21},
journal = {Immunity},
number = {49},
pages = {225-234},
abstract = {Antiviral immunity in Drosophila involves RNA interference and poorly characterized inducible responses. Here, we showed that two components of the IMD pathway, the kinase dIKKβ and the transcription factor Relish, were required to control infection by two picorna-like viruses. We identified a set of genes induced by viral infection and regulated by dIKKβ and Relish, which included an ortholog of STING. We showed that dSTING participated in the control of infection by picorna-like viruses, acting upstream of dIKKβ to regulate expression of Nazo, an antiviral factor. Our data reveal an antiviral function for STING in an animal model devoid of interferons and suggest an evolutionarily ancient role for this molecule in antiviral immunity.},
keywords = {hoffmann, imler, M3i, meignin, PPSE},
pubstate = {published},
tppubtype = {article}
}
Wang Fengjuan, Bonam Srinivasa Reddy, Schall Nicolas, Kuhn Lauriane, Hammann Philippe, Chaloin Olivier, Madinier Jean-Baptiste, Briand Jean-Paul, Page Nicolas, Muller Sylviane
Blocking nuclear export of HSPA8 after heat shock stress severely alters cell survival. Article de journal
Dans: Scientific reports, vol. 8, no. 1, p. 16820, 2018, ISSN: 2045-2322 2045-2322.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{wang_blocking_2018,
title = {Blocking nuclear export of HSPA8 after heat shock stress severely alters cell survival.},
author = {Fengjuan Wang and Srinivasa Reddy Bonam and Nicolas Schall and Lauriane Kuhn and Philippe Hammann and Olivier Chaloin and Jean-Baptiste Madinier and Jean-Paul Briand and Nicolas Page and Sylviane Muller},
doi = {10.1038/s41598-018-34887-6},
issn = {2045-2322 2045-2322},
year = {2018},
date = {2018-01-01},
journal = {Scientific reports},
volume = {8},
number = {1},
pages = {16820},
abstract = {The nuclear translocation of endogenous heat shock cognate protein HSPA8 is a requisite for cell survival during oxidative and heat shock stress. Upon these events, cytoplasmic HSPA8 is thought to concentrate within the nucleus and nucleolus. When the situation returns to normal, HSPA8 is released from its nuclear/nucleolar anchors and redistributes into the cytoplasm. By using different stress conditions and a 21-mer phosphopeptide tool called P140, which binds HSPA8 and hampers its chaperone properties, we deciphered the cellular and molecular effects arising during this vital cytoplasmic-nuclear-cytoplasmic shuttling process. Using the non-metastatic fibroblastoid cell line MRL/N-1 derived from a MRL/MpTn-gld/gld lupus-prone mouse, we discovered that P140 treatment neutralized the egress of HSPA8 from nucleus to cytoplasm in the cell recovery phase. This lack of relocation of HSPA8 into the cytoplasm of heat-shocked MRL/N-1 cells altered the ability of these cells to survive when a second mild oxidative stress mimicking inflammatory conditions was applied. Crosslinking experiments followed by proteomics studies showed that P140 binds regions close to nuclear import and export signal sequences encompassed within the HSPA8 structure. These data are consistent with HSPA8 having a crucial cell protective role against reactive oxygen species (ROS) production by mitochondria during inflammatory conditions.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Poirier Isabelle, Pallud Marie, Kuhn Lauriane, Hammann Philippe, Demortière Arnaud, Jamali Arash, Chicher Johana, Caplat Christelle, Gallon Régis Kevin, Bertrand Martine
Toxicological effects of CdSe nanocrystals on the marine diatom Phaeodactylum tricornutum: The first mass spectrometry-based proteomic approach. Article de journal
Dans: Ecotoxicology and environmental safety, vol. 152, p. 78–90, 2018, ISSN: 1090-2414 0147-6513.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{poirier_toxicological_2018,
title = {Toxicological effects of CdSe nanocrystals on the marine diatom Phaeodactylum tricornutum: The first mass spectrometry-based proteomic approach.},
author = {Isabelle Poirier and Marie Pallud and Lauriane Kuhn and Philippe Hammann and Arnaud Demortière and Arash Jamali and Johana Chicher and Christelle Caplat and Régis Kevin Gallon and Martine Bertrand},
doi = {10.1016/j.ecoenv.2018.01.043},
issn = {1090-2414 0147-6513},
year = {2018},
date = {2018-01-01},
journal = {Ecotoxicology and environmental safety},
volume = {152},
pages = {78--90},
abstract = {In the marine environment, benthic diatoms from estuarine and coastal sediments are among the first targets of nanoparticle pollution whose potential toxicity on marine organisms is still largely unknown. It is therefore relevant to improve our knowledge of interactions between these new pollutants and microalgae, the key players in the control of marine resources. In this study, the response of P. tricornutum to CdSe nanocrystals (CdSe NPs) of 5 nm (NP5) and 12 nm (NP12) in diameter was evaluated through microscopic, physiological, biochemical and proteomic approaches. NP5 and NP12 affected cell growth but oxygen production was only slightly decreased by NP5 after 1-d incubation time. In our experimental conditions, a high CdSe NP dissolution was observed during the first day of culture, leading to Cd bioaccumulation and oxidative stress, particularly with NP12. However, after a 7-day incubation time, proteomic analysis highlighted that P. tricornutum responded to CdSe NP toxicity by regulating numerous proteins involved in protection against oxidative stress, cellular redox homeostasis, Ca(2+) regulation and signalling, S-nitrosylation and S-glutathionylation processes and cell damage repair. These proteome changes allowed algae cells to regulate their intracellular ROS level in contaminated cultures. P. tricornutum was also capable to control its intracellular Cd concentration at a sufficiently low level to preserve its growth. To our knowledge, this is the first work allowing the identification of proteins differentially expressed by P. tricornutum subjected to NPs and thus the understanding of some molecular pathways involved in its cellular response to nanoparticles. SIGNIFICANCE: The microalgae play a key role in the control of marine resources. Moreover, they produce 50% of the atmospheric oxygen. CdSe NPs are extensively used in the industry of renewable energies and it is regrettably expected that these pollutants will sometime soon appear in the marine environment through surface runoff, urban effluents and rivers. Since estuarine and coastal sediments concentrate pollutants, benthic microalgae which live in superficial sediments will be among the first targets of nanoparticle pollution. Thus, it is relevant to improve our knowledge of interactions between diatoms and nanoparticles. Proteomics is a powerful tool for understanding the molecular mechanisms triggered by nanoparticle exposure, and our study is the first one to use this tool to identify proteins differentially expressed by P. tricornutum subjected to CdSe nanocrystals. This work is fundamental to improve our knowledge about the defence mechanisms developed by algae cells to counteract damage caused by CdSe NPs.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Montavon Thomas, Kwon Yerim, Zimmermann Aude, Hammann Philippe, Vincent Timothée, Cognat Valérie, Bergdoll Marc, Michel Fabrice, Dunoyer Patrice
Characterization of DCL4 missense alleles provides insights into its ability to process distinct classes of dsRNA substrates. Article de journal
Dans: The Plant journal : for cell and molecular biology, vol. 95, no. 2, p. 204–218, 2018, ISSN: 1365-313X 0960-7412, (Place: England).
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{montavon_characterization_2018,
title = {Characterization of DCL4 missense alleles provides insights into its ability to process distinct classes of dsRNA substrates.},
author = {Thomas Montavon and Yerim Kwon and Aude Zimmermann and Philippe Hammann and Timothée Vincent and Valérie Cognat and Marc Bergdoll and Fabrice Michel and Patrice Dunoyer},
doi = {10.1111/tpj.13941},
issn = {1365-313X 0960-7412},
year = {2018},
date = {2018-01-01},
journal = {The Plant journal : for cell and molecular biology},
volume = {95},
number = {2},
pages = {204--218},
abstract = {In the model plant Arabidopsis thaliana, four Dicer-like proteins (DCL1-4) mediate the production of various classes of small RNAs (sRNAs). Among these four proteins, DCL4 is by far the most versatile RNaseIII-like enzyme, and previously identified dcl4 missense alleles were shown to uncouple the production of the various classes of DCL4-dependent sRNAs. Yet little is known about the molecular mechanism behind this uncoupling. Here, by studying the subcellular localization, interactome and binding to the sRNA precursors of three distinct dcl4 missense alleles, we simultaneously highlight the absolute requirement of a specific residue in the helicase domain for the efficient production of all DCL4-dependent sRNAs, and identify, within the PAZ domain, an important determinant of DCL4 versatility that is mandatory for the efficient processing of intramolecular fold-back double-stranded RNA (dsRNA) precursors, but that is dispensable for the production of small interfering RNAs (siRNAs) from RDR-dependent dsRNA susbtrates. This study not only provides insights into the DCL4 mode of action, but also delineates interesting tools to further study the complexity of RNA silencing pathways in plants, and possibly other organisms.},
note = {Place: England},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
2017
Kuhn Lauriane, Majzoub Karim, Einhorn Evelyne, Chicher Johana, Pompon Julien, Imler Jean-Luc, Hammann Philippe, Meignin Carine
Definition of a RACK1 Interaction Network in Drosophila melanogaster Using SWATH-MS Article de journal
Dans: G3 (Bethesda), 2017, ISSN: 2160-1836.
Résumé | Liens | BibTeX | Étiquettes: imler, M3i, meignin, PPSE
@article{kuhn_definition_2017,
title = {Definition of a RACK1 Interaction Network in Drosophila melanogaster Using SWATH-MS},
author = {Lauriane Kuhn and Karim Majzoub and Evelyne Einhorn and Johana Chicher and Julien Pompon and Jean-Luc Imler and Philippe Hammann and Carine Meignin},
doi = {10.1534/g3.117.042564},
issn = {2160-1836},
year = {2017},
date = {2017-12-31},
journal = {G3 (Bethesda)},
abstract = {Receptor for Activated C kinase 1 (RACK1) is a scaffold protein that has been found in association with several signaling complexes, and with the 40S subunit of the ribosome. Using the model organism Drosophila melanogaster, we recently showed that RACK1 is required at the ribosome for IRES-mediated translation of viruses. Here, we report a proteomic characterization of the interactome of RACK1 in Drosophila S2 cells. We carried out Label-Free quantitation using both Data-Dependent and Data-Independent Acquisition and observed a significant advantage for the Sequential Window Acquisition of all THeoretical fragment-ion spectra (SWATH) method both in terms of identification of interactants and quantification of low abundance proteins. These data represent the first SWATH spectral library available for Drosophila and will be a useful resource for the community. A total of 52 interacting proteins were identified, including several molecules involved in translation such as structural components of the ribosome, factors regulating translation initiation or elongation and RNA binding proteins. Among these 52 proteins, 15 were identified as partners by the SWATH strategy only. Interestingly, these 15 proteins are significantly enriched for the functions translation and nucleic acid binding. This enrichment reflects the engagement of RACK1 at the ribosome and highlights the added value of SWATH analysis. A functional screen did not reveal any protein sharing the interesting properties of RACK1, which is required for IRES-dependent translation and not essential for cell viability. Intriguingly however, 10 of the RACK1 partners identified restrict replication of Cricket paralysis virus, an IRES-containing virus.},
keywords = {imler, M3i, meignin, PPSE},
pubstate = {published},
tppubtype = {article}
}
Gross L, Vicens Q, Einhorn E, Noireterre A, Schaeffer L, Kuhn L, Imler JL, Eriani G, Meignin C, Martin F
The IRES5'UTR of the dicistrovirus cricket paralysis virus is a type III IRES containing an essential pseudoknot structure Article de journal
Dans: Nucleic Acids Res, vol. 45, no. 15, p. 8993-9004, 2017, ISBN: 28911115.
Résumé | Liens | BibTeX | Étiquettes: ERIANI, meignin, PPSE, Unité ARN
@article{,
title = {The IRES5'UTR of the dicistrovirus cricket paralysis virus is a type III IRES containing an essential pseudoknot structure},
author = {L Gross and Q Vicens and E Einhorn and A Noireterre and L Schaeffer and L Kuhn and JL Imler and G Eriani and C Meignin and F Martin},
url = {https://www.ncbi.nlm.nih.gov/pubmed/28911115?dopt=Abstract},
doi = {10.1093/nar/gkx622},
isbn = {28911115},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
journal = {Nucleic Acids Res},
volume = {45},
number = {15},
pages = {8993-9004},
abstract = {Cricket paralysis virus (CrPV) is a dicistrovirus. Its positive-sense single-stranded RNA genome contains two internal ribosomal entry sites (IRESs). The 5' untranslated region (5'UTR) IRES5'UTR mediates translation of non-structural proteins encoded by ORF1 whereas the well-known intergenic region (IGR) IRESIGR is required for translation of structural proteins from open reading frame 2 in the late phase of infection. Concerted action of both IRES is essential for host translation shut-off and viral translation. IRESIGR has been extensively studied, in contrast the IRES5'UTR remains largely unexplored. Here, we define the minimal IRES element required for efficient translation initiation in drosophila S2 cell-free extracts. We show that IRES5'UTR promotes direct recruitment of the ribosome on the cognate viral AUG start codon without any scanning step, using a Hepatitis-C virus-related translation initiation mechanism. Mass spectrometry analysis revealed that IRES5'UTR recruits eukaryotic initiation factor 3, confirming that it belongs to type III class of IRES elements. Using Selective 2'-hydroxyl acylation analyzed by primer extension and DMS probing, we established a secondary structure model of 5'UTR and of the minimal IRES5'UTR. The IRES5'UTR contains a pseudoknot structure that is essential for proper folding and ribosome recruitment. Overall, our results pave the way for studies addressing the synergy and interplay between the two IRES from CrPV.},
keywords = {ERIANI, meignin, PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Carapito C, Kuhn L, Karim L, Rompais M, Rabilloud T, Schwenzer H, Sissler M
Two proteomic methodologies for defining N-termini of mature human mitochondrial aminoacyl-tRNA synthetases. Article de journal
Dans: Methods, vol. 113, p. 111-119, 2017, ISBN: 27793688.
Résumé | Liens | BibTeX | Étiquettes: PPSE, SISSLER, Unité ARN
@article{,
title = {Two proteomic methodologies for defining N-termini of mature human mitochondrial aminoacyl-tRNA synthetases.},
author = {C Carapito and L Kuhn and L Karim and M Rompais and T Rabilloud and H Schwenzer and M Sissler},
url = {https://www.ncbi.nlm.nih.gov/pubmed/27793688?dopt=Abstract},
doi = {10.1016/j.ymeth.2016.10.012},
isbn = {27793688},
year = {2017},
date = {2017-01-01},
journal = {Methods},
volume = {113},
pages = {111-119},
abstract = {Human mitochondrial aminoacyl-tRNA synthetases (mt-aaRSs) are encoded in the nucleus, synthesized in the cytosol and targeted for importation into mitochondria by a N-terminal mitochondrial targeting sequence. This targeting sequence is presumably cleaved upon entry into the mitochondria, following a process still not fully deciphered in human, despite essential roles for the mitochondrial biogenesis. Maturation processes are indeed essential both for the release of a functional enzyme and to route correctly the protein within mitochondria. The absence of consensus sequences for cleavage sites and the discovery of possible multiple proteolytic steps render predictions of N-termini difficult. Further, the knowledge of the cleavages is key for the design of protein constructions compatible with efficient production in bacterial strains. Finally, full comprehension becomes essential because a growing number of mutations are found in genes coding for mt-aaRS. In the present study, we take advantage of proteomic methodological developments and identified, in mitochondria, three N-termini for the human mitochondrial aspartyl-tRNA synthetase. This first description of the co-existence of different forms opens new perspectives in the biological understanding of this enzyme. Those methods are extended to the whole set of human mt-aaRSs and methodological advice are provided for further investigations.},
keywords = {PPSE, SISSLER, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Tomasini A, Moreau K, Chicher J, Geissmann T, Vandenesch F, Romby P, Marzi S, Caldelari I
The RNA targetome of Staphylococcus aureus non-coding RNA RsaA: impact on cell surface properties and defense mechanisms. Article de journal
Dans: Nucleic Acids Res, vol. 45, no. 11, p. 6746-6760, 2017, ISBN: 28379505.
Résumé | Liens | BibTeX | Étiquettes: PPSE, ROMBY, Unité ARN
@article{,
title = {The RNA targetome of Staphylococcus aureus non-coding RNA RsaA: impact on cell surface properties and defense mechanisms.},
author = {A Tomasini and K Moreau and J Chicher and T Geissmann and F Vandenesch and P Romby and S Marzi and I Caldelari},
url = {https://www.ncbi.nlm.nih.gov/pubmed/28379505},
doi = {10.1093/nar/gkx219},
isbn = {28379505},
year = {2017},
date = {2017-01-01},
journal = {Nucleic Acids Res},
volume = {45},
number = {11},
pages = {6746-6760},
abstract = {The virulon of Staphyloccocus aureus is controlled by intricate connections between transcriptional and post-transcriptional regulators including proteins and small non-coding RNAs (sRNAs). Many of the sRNAs regulate gene expression through base-pairings with mRNAs. However, characterization of the direct sRNA targets in Gram-positive bacteria remained a difficult challenge. Here, we have applied and adapted the MS2-affinity purification approach coupled to RNA sequencing (MAPS) to determine the targetome of RsaA sRNA of S. aureus, known to repress the synthesis of the transcriptional regulator MgrA. Several mRNAs were enriched with RsaA expanding its regulatory network. Besides mgrA, several of these mRNAs encode a family of SsaA-like enzymes involved in peptidoglycan metabolism and the secreted anti-inflammatory FLIPr protein. Using a combination of in vivo and in vitro approaches, these mRNAs were validated as direct RsaA targets. Quantitative differential proteomics of wild-type and mutant strains corroborated the MAPS results. Additionally, it revealed that RsaA indirectly activated the synthesis of surface proteins supporting previous data that RsaA stimulated biofilm formation and favoured chronic infections. All together, this study shows that MAPS could also be easily applied in Gram-positive bacteria for identification of sRNA targetome.},
keywords = {PPSE, ROMBY, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Khusainov I, Vicens Q, Bochler A, Grosse F, Myasnikov A, Ménétret J F, Chicher J, Marzi S, Romby P, Yusupova G, Yusupov M, Hashem Y
Structure of the 70S ribosome from human pathogen Staphylococcus aureus. Article de journal
Dans: Nucleic Acids Res, vol. 45, no. 2, p. 1026, 2017, ISBN: 28123039.
Résumé | Liens | BibTeX | Étiquettes: PPSE, ROMBY, Unité ARN
@article{,
title = {Structure of the 70S ribosome from human pathogen Staphylococcus aureus.},
author = {I Khusainov and Q Vicens and A Bochler and F Grosse and A Myasnikov and J F Ménétret and J Chicher and S Marzi and P Romby and G Yusupova and M Yusupov and Y Hashem},
url = {https://www.ncbi.nlm.nih.gov/pubmed/28123039?dopt=Abstract},
doi = {10.1093/nar/gkw1126},
isbn = {28123039},
year = {2017},
date = {2017-01-01},
journal = {Nucleic Acids Res},
volume = {45},
number = {2},
pages = {1026},
abstract = {Erratum for Structure of the 70S ribosome from human pathogen Staphylococcus aureus.},
keywords = {PPSE, ROMBY, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Querido J Brito, Mancera-Martinez E, Vicens Q, Bochler A, Chicher J, Simonetti A, Hashem Y
The cryo-EM Structure of a Novel 40S Kinetoplastid-Specific Ribosomal Protein Article de journal
Dans: Structure, vol. 25, no. 12, p. 1785-1794, 2017, ISBN: 29107485.
Résumé | Liens | BibTeX | Étiquettes: PPSE, Unité ARN
@article{,
title = {The cryo-EM Structure of a Novel 40S Kinetoplastid-Specific Ribosomal Protein},
author = {J Brito Querido and E Mancera-Martinez and Q Vicens and A Bochler and J Chicher and A Simonetti and Y Hashem},
url = {https://www.ncbi.nlm.nih.gov/pubmed/29107485?dopt=Abstract},
doi = {10.1016/j.str.2017.09.014},
isbn = {29107485},
year = {2017},
date = {2017-01-01},
journal = {Structure},
volume = {25},
number = {12},
pages = {1785-1794},
abstract = {Kinetoplastids are potentially lethal protozoan pathogens affecting more than 20 million people worldwide. There is a critical need for more specific targets for the development of safer anti-kinetoplastid therapeutic molecules that can replace the scarce and highly cytotoxic current drugs. The kinetoplastid ribosome represents a potential therapeutic target due to its relative structural divergence when compared with its human counterpart. However, several kinetoplastid-specific ribosomal features remain uncharacterized. Here, we present the near-atomic cryoelectron microscopy structure of a novel bona fide kinetoplastid-specific ribosomal (r-) protein (KSRP) bound to the ribosome. KSRP is an essential protein located at the solvent face of the 40S subunit, where it binds and stabilizes kinetoplastid-specific domains of rRNA, suggesting its role in ribosome integrity. KSRP also interacts with the r-protein eS6 at a region that is only conserved in kinetoplastids. The kinetoplastid-specific ribosomal environment of KSRP provides a promising target for the design of safer anti-kinetoplastidian drugs.},
keywords = {PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Kuhn Lauriane, Majzoub Karim, Einhorn Evelyne, Chicher Johana, Pompon Julien, Imler Jean-Luc, Hammann Philippe, Meignin Carine
Definition of a RACK1 Interaction Network in Drosophila melanogaster Using SWATH-MS Article de journal
Dans: G3 (Bethesda), 2017, ISSN: 2160-1836.
Résumé | Liens | BibTeX | Étiquettes: meignin, PPSE
@article{kuhn_definition_2017b,
title = {Definition of a RACK1 Interaction Network in Drosophila melanogaster Using SWATH-MS},
author = {Lauriane Kuhn and Karim Majzoub and Evelyne Einhorn and Johana Chicher and Julien Pompon and Jean-Luc Imler and Philippe Hammann and Carine Meignin},
doi = {10.1534/g3.117.042564},
issn = {2160-1836},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
journal = {G3 (Bethesda)},
abstract = {Receptor for Activated C kinase 1 (RACK1) is a scaffold protein that has been found in association with several signaling complexes, and with the 40S subunit of the ribosome. Using the model organism Drosophila melanogaster, we recently showed that RACK1 is required at the ribosome for IRES-mediated translation of viruses. Here, we report a proteomic characterization of the interactome of RACK1 in Drosophila S2 cells. We carried out Label-Free quantitation using both Data-Dependent and Data-Independent Acquisition and observed a significant advantage for the Sequential Window Acquisition of all THeoretical fragment-ion spectra (SWATH) method both in terms of identification of interactants and quantification of low abundance proteins. These data represent the first SWATH spectral library available for Drosophila and will be a useful resource for the community. A total of 52 interacting proteins were identified, including several molecules involved in translation such as structural components of the ribosome, factors regulating translation initiation or elongation and RNA binding proteins. Among these 52 proteins, 15 were identified as partners by the SWATH strategy only. Interestingly, these 15 proteins are significantly enriched for the functions translation and nucleic acid binding. This enrichment reflects the engagement of RACK1 at the ribosome and highlights the added value of SWATH analysis. A functional screen did not reveal any protein sharing the interesting properties of RACK1, which is required for IRES-dependent translation and not essential for cell viability. Intriguingly however, 10 of the RACK1 partners identified restrict replication of Cricket paralysis virus, an IRES-containing virus.},
keywords = {meignin, PPSE},
pubstate = {published},
tppubtype = {article}
}
Gross Lauriane, Vicens Quentin, Einhorn Evelyne, Noireterre Audrey, Schaeffer Laure, Kuhn Lauriane, Imler Jean-Luc, Eriani Gilbert, Meignin Carine, Martin Franck
The IRES5'UTR of the dicistrovirus cricket paralysis virus is a type III IRES containing an essential pseudoknot structure Article de journal
Dans: Nucleic Acids Research, vol. 45, no. 15, p. 8993–9004, 2017, ISSN: 1362-4962.
Résumé | Liens | BibTeX | Étiquettes: meignin, PPSE
@article{gross_ires5utr_2017,
title = {The IRES5'UTR of the dicistrovirus cricket paralysis virus is a type III IRES containing an essential pseudoknot structure},
author = {Lauriane Gross and Quentin Vicens and Evelyne Einhorn and Audrey Noireterre and Laure Schaeffer and Lauriane Kuhn and Jean-Luc Imler and Gilbert Eriani and Carine Meignin and Franck Martin},
doi = {10.1093/nar/gkx622},
issn = {1362-4962},
year = {2017},
date = {2017-01-01},
urldate = {2017-01-01},
journal = {Nucleic Acids Research},
volume = {45},
number = {15},
pages = {8993--9004},
abstract = {Cricket paralysis virus (CrPV) is a dicistrovirus. Its positive-sense single-stranded RNA genome contains two internal ribosomal entry sites (IRESs). The 5' untranslated region (5'UTR) IRES5'UTR mediates translation of non-structural proteins encoded by ORF1 whereas the well-known intergenic region (IGR) IRESIGR is required for translation of structural proteins from open reading frame 2 in the late phase of infection. Concerted action of both IRES is essential for host translation shut-off and viral translation. IRESIGR has been extensively studied, in contrast the IRES5'UTR remains largely unexplored. Here, we define the minimal IRES element required for efficient translation initiation in drosophila S2 cell-free extracts. We show that IRES5'UTR promotes direct recruitment of the ribosome on the cognate viral AUG start codon without any scanning step, using a Hepatitis-C virus-related translation initiation mechanism. Mass spectrometry analysis revealed that IRES5'UTR recruits eukaryotic initiation factor 3, confirming that it belongs to type III class of IRES elements. Using Selective 2'-hydroxyl acylation analyzed by primer extension and DMS probing, we established a secondary structure model of 5'UTR and of the minimal IRES5'UTR. The IRES5'UTR contains a pseudoknot structure that is essential for proper folding and ribosome recruitment. Overall, our results pave the way for studies addressing the synergy and interplay between the two IRES from CrPV.},
keywords = {meignin, PPSE},
pubstate = {published},
tppubtype = {article}
}
Carapito Christine, Kuhn Lauriane, Karim Loukmane, Rompais Magali, Rabilloud Thierry, Schwenzer Hagen, Sissler Marie
Two proteomic methodologies for defining N-termini of mature human mitochondrial aminoacyl-tRNA synthetases. Article de journal
Dans: Methods (San Diego, Calif.), vol. 113, p. 111–119, 2017, ISSN: 1095-9130 1046-2023.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{carapito_two_2017,
title = {Two proteomic methodologies for defining N-termini of mature human mitochondrial aminoacyl-tRNA synthetases.},
author = {Christine Carapito and Lauriane Kuhn and Loukmane Karim and Magali Rompais and Thierry Rabilloud and Hagen Schwenzer and Marie Sissler},
doi = {10.1016/j.ymeth.2016.10.012},
issn = {1095-9130 1046-2023},
year = {2017},
date = {2017-01-01},
journal = {Methods (San Diego, Calif.)},
volume = {113},
pages = {111--119},
abstract = {Human mitochondrial aminoacyl-tRNA synthetases (mt-aaRSs) are encoded in the nucleus, synthesized in the cytosol and targeted for importation into mitochondria by a N-terminal mitochondrial targeting sequence. This targeting sequence is presumably cleaved upon entry into the mitochondria, following a process still not fully deciphered in human, despite essential roles for the mitochondrial biogenesis. Maturation processes are indeed essential both for the release of a functional enzyme and to route correctly the protein within mitochondria. The absence of consensus sequences for cleavage sites and the discovery of possible multiple proteolytic steps render predictions of N-termini difficult. Further, the knowledge of the cleavages is key for the design of protein constructions compatible with efficient production in bacterial strains. Finally, full comprehension becomes essential because a growing number of mutations are found in genes coding for mt-aaRS. In the present study, we take advantage of proteomic methodological developments and identified, in mitochondria, three N-termini for the human mitochondrial aspartyl-tRNA synthetase. This first description of the co-existence of different forms opens new perspectives in the biological understanding of this enzyme. Those methods are extended to the whole set of human mt-aaRSs and methodological advice are provided for further investigations.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Debard Sylvain, Bader Gaétan, Craene Johan-Owen De, Enkler Ludovic, Bär Séverine, Laporte Daphné, Hammann Philippe, Myslinski Evelyne, Senger Bruno, Friant Sylvie, Becker Hubert Dominique
Nonconventional localizations of cytosolic aminoacyl-tRNA synthetases in yeast and human cells. Article de journal
Dans: Methods (San Diego, Calif.), vol. 113, p. 91–104, 2017, ISSN: 1095-9130 1046-2023, (Place: United States).
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{debard_nonconventional_2017,
title = {Nonconventional localizations of cytosolic aminoacyl-tRNA synthetases in yeast and human cells.},
author = {Sylvain Debard and Gaétan Bader and Johan-Owen De Craene and Ludovic Enkler and Séverine Bär and Daphné Laporte and Philippe Hammann and Evelyne Myslinski and Bruno Senger and Sylvie Friant and Hubert Dominique Becker},
doi = {10.1016/j.ymeth.2016.09.017},
issn = {1095-9130 1046-2023},
year = {2017},
date = {2017-01-01},
journal = {Methods (San Diego, Calif.)},
volume = {113},
pages = {91--104},
abstract = {By definition, cytosolic aminoacyl-tRNA synthetases (aaRSs) should be restricted to the cytosol of eukaryotic cells where they supply translating ribosomes with their aminoacyl-tRNA substrates. However, it has been shown that other translationally-active compartments like mitochondria and plastids can simultaneously contain the cytosolic aaRS and its corresponding organellar ortholog suggesting that both forms do not share the same organellar function. In addition, a fair number of cytosolic aaRSs have also been found in the nucleus of cells from several species. Hence, these supposedly cytosolic-restricted enzymes have instead the potential to be multi-localized. As expected, in all examples that were studied so far, when the cytosolic aaRS is imported inside an organelle that already contains its bona fide corresponding organellar-restricted aaRSs, the cytosolic form was proven to exert a nonconventional and essential function. Some of these essential functions include regulating homeostasis and protecting against various stresses. It thus becomes critical to assess meticulously the subcellular localization of each of these cytosolic aaRSs to unravel their additional roles. With this objective in mind, we provide here a review on what is currently known about cytosolic aaRSs multi-compartmentalization and we describe all commonly used protocols and procedures for identifying the compartments in which cytosolic aaRSs relocalize in yeast and human cells.},
note = {Place: United States},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Incarbone M, Zimmermann A, Hammann P, Erhardt M, Michel F, Dunoyer P
Neutralization of mobile antiviral small RNA through peroxisomal import. Article de journal
Dans: Nature plants, vol. 3, p. 17094, 2017, ISSN: 2055-0278 2055-0278, (Place: England).
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{incarbone_neutralization_2017,
title = {Neutralization of mobile antiviral small RNA through peroxisomal import.},
author = {M Incarbone and A Zimmermann and P Hammann and M Erhardt and F Michel and P Dunoyer},
doi = {10.1038/nplants.2017.94},
issn = {2055-0278 2055-0278},
year = {2017},
date = {2017-01-01},
journal = {Nature plants},
volume = {3},
pages = {17094},
abstract = {In animals, certain viral proteins are targeted to peroxisomes to dampen the antiviral immune response mediated by these organelles(1-3). In plants, RNA interference (RNAi) mediated by small interfering (si)RNA is the main antiviral defence mechanism. To protect themselves against the cell- and non-cell autonomous effects of RNAi, viruses produce viral suppressors of RNA silencing (VSR)(4), whose study is crucial to properly understand the biological cycle of plant viruses and potentially find new solutions to control these pathogens. By combining biochemical approaches, cell-specific inhibition of RNAi movement and peroxisome isolation, we show here that one such VSR, the peanut clump virus (PCV)-encoded P15, isolates siRNA from the symplasm by delivering them into the peroxisomal matrix. Infection with PCV lacking this ability reveals that piggybacking of these VSR-bound nucleic acids into peroxisomes potentiates viral systemic movement by preventing the spread of antiviral siRNA. Collectively, these results highlight organellar confinement of antiviral molecules as a novel pathogenic strategy that may have its direct counterpart in other plant and animal viruses.},
note = {Place: England},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Montavon Thomas, Kwon Yerim, Zimmermann Aude, Hammann Philippe, Vincent Timothée, Cognat Valérie, Michel Fabrice, Dunoyer Patrice
A specific dsRNA-binding protein complex selectively sequesters endogenous inverted-repeat siRNA precursors and inhibits their processing. Article de journal
Dans: Nucleic acids research, vol. 45, no. 3, p. 1330–1344, 2017, ISSN: 1362-4962 0305-1048 0305-1048.
Résumé | Liens | BibTeX | Étiquettes: Inverted Repeat Sequences, PPSE
@article{montavon_specific_2017,
title = {A specific dsRNA-binding protein complex selectively sequesters endogenous inverted-repeat siRNA precursors and inhibits their processing.},
author = {Thomas Montavon and Yerim Kwon and Aude Zimmermann and Philippe Hammann and Timothée Vincent and Valérie Cognat and Fabrice Michel and Patrice Dunoyer},
doi = {10.1093/nar/gkw1264},
issn = {1362-4962 0305-1048 0305-1048},
year = {2017},
date = {2017-01-01},
journal = {Nucleic acids research},
volume = {45},
number = {3},
pages = {1330--1344},
abstract = {In plants, several dsRNA-binding proteins (DRBs) have been shown to play important roles in various RNA silencing pathways, mostly by promoting the efficiency and/or accuracy of Dicer-like proteins (DCL)-mediated small RNA production. Among the DRBs encoded by the Arabidopsis genome, we recently identified DRB7.2 whose function in RNA silencing was unknown. Here, we show that DRB7.2 is specifically involved in siRNA production from endogenous inverted-repeat (endoIR) loci. This function requires its interacting partner DRB4, the main cofactor of DCL4 and is achieved through specific sequestration of endoIR dsRNA precursors, thereby repressing their access and processing by the siRNA-generating DCLs. The present study also provides multiple lines of evidence showing that DRB4 is partitioned into, at least, two distinct cellular pools fulfilling different functions, through mutually exclusive binding with either DCL4 or DRB7.2. Collectively, these findings revealed that plants have evolved a specific DRB complex that modulates selectively the production of endoIR-siRNAs. The existence of such a complex and its implication regarding the still elusive biological function of plant endoIR-siRNA will be discussed.},
keywords = {Inverted Repeat Sequences, PPSE},
pubstate = {published},
tppubtype = {article}
}
2016
Poirier Isabelle, Kuhn Lauriane, Demortière Arnaud, Mirvaux Boris, Hammann Philippe, Chicher Johana, Caplat Christelle, Pallud Marie, Bertrand Martine
Ability of the marine bacterium Pseudomonas fluorescens BA3SM1 to counteract the toxicity of CdSe nanoparticles. Article de journal
Dans: Journal of proteomics, vol. 148, p. 213–227, 2016, ISSN: 1876-7737 1874-3919.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{poirier_ability_2016,
title = {Ability of the marine bacterium Pseudomonas fluorescens BA3SM1 to counteract the toxicity of CdSe nanoparticles.},
author = {Isabelle Poirier and Lauriane Kuhn and Arnaud Demortière and Boris Mirvaux and Philippe Hammann and Johana Chicher and Christelle Caplat and Marie Pallud and Martine Bertrand},
doi = {10.1016/j.jprot.2016.07.021},
issn = {1876-7737 1874-3919},
year = {2016},
date = {2016-10-01},
journal = {Journal of proteomics},
volume = {148},
pages = {213--227},
abstract = {In the marine environment, bacteria from estuarine and coastal sediments are among the first targets of nanoparticle pollution; it is therefore relevant to improve the knowledge of interactions between bacteria and nanoparticles. In this work, the response of the marine bacterium Pseudomonas fluorescens BA3SM1 to CdSe nanocrystals (CdSe NPs) of 3nm (NP3) and 8nm (NP8) in diameter was evaluated through microscopic, physiological, biochemical and proteomic approaches. Transmission electron microscopy images showed that NP3 were able to penetrate the bacteria, while NP8 were highly concentrated around the cells, embedded in large exopolysaccharides. In our experimental conditions, both CdSe NP sizes induced a decrease in respiration during the stationary growth phase, while only NP8 caused growth retardation and a decrease in pyoverdine production. Proteomic analyses highlighted that the strain responded to CdSe NP toxicity by inducing various defence mechanisms such as cell aggregation, extracellular CdSe NP sequestration, effective protection against oxidative stress, modifications of envelope organization and properties, and cadmium export. In addition, BA3SM1 presented a biosorption capacity of 1.6×10(16)NP3/g dry weight and 1.7×10(15)NP8/g dry weight. This strain therefore appears as a promising agent for NP bioremediation processes. Proteomic data are available via ProteomeXchange with identifier PXD004012. BIOLOGICAL SIGNIFICANCE: To the best of our knowledge, this is the first report focussing on the effects of CdSe colloidal nanocrystals (CdSe NPs) on a marine strain of Pseudomonas fluorescens. CdSe NPs are extensively used in the industry of renewable energies and it is regrettably expected that these pollutants will sometime soon appear in the marine environment through surface runoff, urban effluents and rivers. Bacteria living in estuarine and coastal sediments will be among the first targets of these new pollutants. The pseudomonads are frequently found in these ecosystems. They are involved in several biogeochemical cycles and are known for their high resistance to pollutants. Consequently, this study focussing on the effects of CdSe NPs on the marine strain P. fluorescens BA3SM1 is highly relevant for several reasons. First, it aims at improving knowledge about the interactions between bacteria and NPs. This is fundamental to effectively use NPs against pathogenic bacteria. Secondly, in spite of CdSe NP interactions with the bacterial cells, the strain BA3SM1 can develop various strategies to counteract CdSe NP toxicity and ensure its growth. It exhibits interesting properties to sequester CdSe NPs and it retains its ability to form biofilm. The strain therefore appears as a promising agent for NP bioremediation thanks to biofiltration processes. Finally, this study shows that CdSe NPs of 8nm in diameter cause a decrease in the secretion of siderophore pyoverdine, a secondary metabolite playing a key role in microbial ecology since it drives bacterial survival and competitiveness in ecosystems. Bacteria producing effective siderophores survive better in a Fe-deficient environment where they antagonize the growth of other microbes thought iron deprivation. Furthermore, siderophores are also employed as virulence factors in human pathogenic strains such as P. aeruginosa. Consequently, this study highlights that NPs can impact the secondary metabolism of bacteria with environmental and medical implications. In addition, in this work, Data-Dependant Acquisition (DDA) provided state of the art Mass Spectrometry data by Spectral Counting and MS1 Label-Free. The combination of these two well-known proteomic techniques including manual validations strengthened the identification and quantification of regulated proteins. Moreover, numerous correlations between proteomic analyses and other observations (physiological, biochemical, microscopic) consolidated our interpretations.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Ibrahim Marianne, Gahoual Rabah, Enkler Ludovic, Becker Hubert Dominique, Chicher Johana, Hammann Philippe, François Yannis-Nicolas, Kuhn Lauriane, Leize-Wagner Emmanuelle
Dans: Journal of chromatographic science, vol. 54, no. 4, p. 653–663, 2016, ISSN: 1945-239X 0021-9665 0021-9665.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{ibrahim_improvement_2016,
title = {Improvement of Mitochondria Extract from Saccharomyces cerevisiae Characterization in Shotgun Proteomics Using Sheathless Capillary Electrophoresis Coupled to Tandem Mass Spectrometry.},
author = {Marianne Ibrahim and Rabah Gahoual and Ludovic Enkler and Hubert Dominique Becker and Johana Chicher and Philippe Hammann and Yannis-Nicolas François and Lauriane Kuhn and Emmanuelle Leize-Wagner},
doi = {10.1093/chromsci/bmw005},
issn = {1945-239X 0021-9665 0021-9665},
year = {2016},
date = {2016-04-01},
journal = {Journal of chromatographic science},
volume = {54},
number = {4},
pages = {653--663},
abstract = {In this work, we describe the characterization of a quantity-limited sample (100 ng) of yeast mitochondria by shotgun bottom-up proteomics. Sample characterization was carried out by sheathless capillary electrophoresis, equipped with a high sensitivity porous tip and coupled to tandem mass spectrometry (CESI-MS-MS) and concomitantly with a state-of-art nano flow liquid chromatography coupled to a similar mass spectrometry (MS) system (nanoLC-MS-MS). With single injections, both nanoLC-MS-MS and CESI-MS-MS 60 min-long separation experiments allowed us to identify 271 proteins (976 unique peptides) and 300 proteins (1,765 unique peptides) respectively, demonstrating a significant specificity and complementarity in identification depending on the physicochemical separation employed. Such complementary, maximizing the number of analytes detected, presents a powerful tool to deepen a biological sample's proteomic characterization. A comprehensive study of the specificity provided by each separating technique was also performed using the different properties of the identified peptides: molecular weight, mass-to-charge ratio (m/z), isoelectric point (pI), sequence coverage or MS-MS spectral quality enabled to determine the contribution of each separation. For example, CESI-MS-MS enables to identify larger peptides and eases the detection of those having extreme pI without impairing spectral quality. The addition of peptides, and therefore proteins identified by both techniques allowed us to increase significantly the sequence coverages and then the confidence of characterization. In this study, we also demonstrated that the two yeast enolase isoenzymes were both characterized in the CESI-MS-MS data set. The observation of discriminant proteotypic peptides is facilitated when a high number of precursors with high-quality MS-MS spectra are generated.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Said Nassur, Gahoual Rabah, Kuhn Lauriane, Beck Alain, François Yannis-Nicolas, Leize-Wagner Emmanuelle
Dans: Analytica chimica acta, vol. 918, p. 50–59, 2016, ISSN: 1873-4324 0003-2670.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{said_structural_2016,
title = {Structural characterization of antibody drug conjugate by a combination of intact, middle-up and bottom-up techniques using sheathless capillary electrophoresis - Tandem mass spectrometry as nanoESI infusion platform and separation method.},
author = {Nassur Said and Rabah Gahoual and Lauriane Kuhn and Alain Beck and Yannis-Nicolas François and Emmanuelle Leize-Wagner},
doi = {10.1016/j.aca.2016.03.006},
issn = {1873-4324 0003-2670},
year = {2016},
date = {2016-04-01},
journal = {Analytica chimica acta},
volume = {918},
pages = {50--59},
abstract = {Antibody-drug conjugates (ADCs) represent a fast growing class of biotherapeutic products. Their production leads to a distribution of species exhibiting different number of conjugated drugs overlaying the inherent complexity resulting from the monoclonal antibody format, such as glycoforms. ADCs require an additional level of characterization compared to first generation of biotherapeutics obtained through multiple analytical techniques for complete structure assessment. We report the development of complementary approaches implementing sheathless capillary electrophoresis-mass spectrometry (sheathless CE-MS) to characterize the different aspects defining the structure of brentuximab vedotin. Native MS using sheathless CE-MS instrument as a nanoESI infusion platform enabled accurate mass measurements and estimation of the average drug to antibody ratio alongside to drug load distribution. Middle-up analysis performed after limited IdeS proteolysis allowed to study independently the light chain, Fab and F(ab')2 subunits incorporating 1, 0 to 4 and 0 to 8 payloads respectively. Finally, a CZE-ESI-MS/MS methodology was developed in order to be compatible with hydrophobic drug composing ADCs. From a single injection, complete sequence coverage could be achieved. Using the same dataset, glycosylation and drug-loaded peptides could be simultaneously identified revealing robust information regarding their respective localization and abundance. Drug-loaded peptide fragmentation mass spectra study demonstrated drug specific fragments reinforcing identification confidence, undescribed so far. Results reveal the method ability to characterize ADCs primary structure in a comprehensive manner while reducing tremendously the number of experiments required. Data generated showed that sheathless CZE-ESI-MS/MS characteristics position the methodology developed as a relevant alternative for comprehensive multilevel characterization of these complex biomolecules.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Simonetti A, Querido J Brito, Myasnikov A, Mancera-Martinez E, Renaud A, Kuhn L, Hashem Y
eIF3 Peripheral Subunits Rearrangement after mRNA Binding and Start-Codon Recognition. Article de journal
Dans: Mol Cell, vol. 63, no. 2, p. 206-217, 2016, ISBN: 27373335.
Résumé | Liens | BibTeX | Étiquettes: PPSE, Unité ARN
@article{,
title = {eIF3 Peripheral Subunits Rearrangement after mRNA Binding and Start-Codon Recognition.},
author = {A Simonetti and J Brito Querido and A Myasnikov and E Mancera-Martinez and A Renaud and L Kuhn and Y Hashem},
url = {http://www.ncbi.nlm.nih.gov/pubmed/27373335},
doi = {10.1016/j.molcel.2016.05.033.},
isbn = {27373335},
year = {2016},
date = {2016-01-01},
journal = {Mol Cell},
volume = {63},
number = {2},
pages = {206-217},
abstract = {mRNA translation initiation in eukaryotes requires the cooperation of a dozen eukaryotic initiation factors (eIFs) forming several complexes, which leads to mRNA attachment to the small ribosomal 40S subunit, mRNA scanning for start codon, and accommodation of initiator tRNA at the 40S P site. eIF3, composed of 13 subunits, 8 core (a, c, e, f, h, l, k, and m) and 5 peripheral (b, d, g, i, and j), plays a central role during this process. Here we report a cryo-electron microscopy structure of a mammalian 48S initiation complex at 5.8 Å resolution. It shows the relocation of subunits eIF3i and eIF3g to the 40S intersubunit face on the GTPase binding site, at a late stage in initiation. On the basis of a previous study, we demonstrate the relocation of eIF3b to the 40S intersubunit face, binding below the eIF2-Met-tRNAiMet ternary complex upon mRNA attachment. Our analysis reveals the deep rearrangement of eIF3 and unravels the molecular mechanism underlying eIF3 function in mRNA scanning and timing of ribosomal subunit joining.},
keywords = {PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Haas G, Cetin S, Messmer M, Chane-Woon-Ming B, Terenzi O, Chicher J, Kuhn L, Hammann P, Pfeffer S
Identification of factors involved in target RNA-directed microRNA degradation. Article de journal
Dans: Nucleic Acids Res, vol. 44, no. 6, p. 2873-2887, 2016, ISBN: 26809675.
Résumé | Liens | BibTeX | Étiquettes: PFEFFER, PPSE, Unité ARN
@article{,
title = {Identification of factors involved in target RNA-directed microRNA degradation.},
author = {G Haas and S Cetin and M Messmer and B Chane-Woon-Ming and O Terenzi and J Chicher and L Kuhn and P Hammann and S Pfeffer},
url = {http://www.ncbi.nlm.nih.gov/pubmed/26809675?dopt=Abstract},
doi = {10.1093/nar/gkw040},
isbn = {26809675},
year = {2016},
date = {2016-01-01},
journal = {Nucleic Acids Res},
volume = {44},
number = {6},
pages = {2873-2887},
abstract = {The mechanism by which micro (mi)RNAs control their target gene expression is now well understood. It is however less clear how the level of miRNAs themselves is regulated. Under specific conditions, abundant and highly complementary target RNA can trigger miRNA degradation by a mechanism involving nucleotide addition and exonucleolytic degradation. One such mechanism has been previously observed to occur naturally during viral infection. To date, the molecular details of this phenomenon are not known. We report here that both the degree of complementarity and the ratio of miRNA/target abundance are crucial for the efficient decay of the small RNA. Using a proteomic approach based on the transfection of biotinylated antimiRNA oligonucleotides, we set to identify the factors involved in target-mediated miRNA degradation. Among the retrieved proteins, we identified members of the RNA-induced silencing complex, but also RNA modifying and degradation enzymes. We further validate and characterize the importance of one of these, the Perlman Syndrome 3'-5' exonuclease DIS3L2. We show that this protein interacts with Argonaute 2 and functionally validate its role in target-directed miRNA degradation both by artificial targets and in the context of mouse cytomegalovirus infection},
keywords = {PFEFFER, PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Rottloff Sandy, Miguel Sissi, Biteau Flore, Nisse Estelle, Hammann Philippe, Kuhn Lauriane, Chicher Johana, Bazile Vincent, Gaume Laurence, Mignard Benoit, Hehn Alain, Bourgaud Frédéric
Proteome analysis of digestive fluids in Nepenthes pitchers. Article de journal
Dans: Annals of botany, vol. 117, no. 3, p. 479–495, 2016, ISSN: 1095-8290 0305-7364 0305-7364.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{rottloff_proteome_2016,
title = {Proteome analysis of digestive fluids in Nepenthes pitchers.},
author = {Sandy Rottloff and Sissi Miguel and Flore Biteau and Estelle Nisse and Philippe Hammann and Lauriane Kuhn and Johana Chicher and Vincent Bazile and Laurence Gaume and Benoit Mignard and Alain Hehn and Frédéric Bourgaud},
doi = {10.1093/aob/mcw001},
issn = {1095-8290 0305-7364 0305-7364},
year = {2016},
date = {2016-01-01},
journal = {Annals of botany},
volume = {117},
number = {3},
pages = {479--495},
abstract = {BACKGROUND AND AIMS: Carnivorous plants have developed strategies to enable growth in nutrient-poor soils. For the genus Nepenthes, this strategy represents producing pitcher-modified leaves that can trap and digest various prey. These pitchers produce a digestive fluid composed of proteins, including hydrolytic enzymes. The focus of this study was on the identification of these proteins. METHODS: In order to better characterize and have an overview of these proteins, digestive fluid was sampled from pitchers at different stages of maturity from five species of Nepenthes (N. mirabilis, N. alata, N. sanguinea, N. bicalcarata and N. albomarginata) that vary in their ecological niches and grew under different conditions. Three complementary approaches based on transcriptomic resources, mass spectrometry and in silico analysis were used. KEY RESULTS: This study permitted the identification of 29 proteins excreted in the pitchers. Twenty of these proteins were never reported in Nepenthes previously and included serine carboxypeptidases, α- and β-galactosidases, lipid transfer proteins and esterases/lipases. These 20 proteins display sequence signals allowing their secretion into the pitcher fluid. CONCLUSIONS: Nepenthes pitcher plants have evolved an arsenal of enzymes to digest prey caught in their traps. The panel of new proteins identified in this study provides new insights into the digestive process of these carnivorous plants.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Stoetzel Corinne, Bär Séverine, Craene Johan-Owen De, Scheidecker Sophie, Etard Christelle, Chicher Johana, Reck Jennifer R, Perrault Isabelle, Geoffroy Véronique, Chennen Kirsley, Strähle Uwe, Hammann Philippe, Friant Sylvie, Dollfus Hélène
A mutation in VPS15 (PIK3R4) causes a ciliopathy and affects IFT20 release from the cis-Golgi. Article de journal
Dans: Nature communications, vol. 7, p. 13586, 2016, ISSN: 2041-1723 2041-1723.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{stoetzel_mutation_2016,
title = {A mutation in VPS15 (PIK3R4) causes a ciliopathy and affects IFT20 release from the cis-Golgi.},
author = {Corinne Stoetzel and Séverine Bär and Johan-Owen De Craene and Sophie Scheidecker and Christelle Etard and Johana Chicher and Jennifer R Reck and Isabelle Perrault and Véronique Geoffroy and Kirsley Chennen and Uwe Strähle and Philippe Hammann and Sylvie Friant and Hélène Dollfus},
doi = {10.1038/ncomms13586},
issn = {2041-1723 2041-1723},
year = {2016},
date = {2016-01-01},
journal = {Nature communications},
volume = {7},
pages = {13586},
abstract = {Ciliopathies are a group of diseases that affect kidney and retina among other organs. Here, we identify a missense mutation in PIK3R4 (phosphoinositide 3-kinase regulatory subunit 4, named VPS15) in a family with a ciliopathy phenotype. Besides being required for trafficking and autophagy, we show that VPS15 regulates primary cilium length in human fibroblasts, as well as ciliary processes in zebrafish. Furthermore, we demonstrate its interaction with the golgin GM130 and its localization to the Golgi. The VPS15-R998Q patient mutation impairs Golgi trafficking functions in humanized yeast cells. Moreover, in VPS15-R998Q patient fibroblasts, the intraflagellar transport protein IFT20 is not localized to vesicles trafficking to the cilium but is restricted to the Golgi. Our findings suggest that at the Golgi, VPS15 and GM130 form a protein complex devoid of VPS34 to ensure the IFT20-dependent sorting and transport of membrane proteins from the cis-Golgi to the primary cilium.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {article}
}
Dobrenel Thomas, Mancera-Martínez Eder, Forzani Céline, Azzopardi Marianne, Davanture Marlène, Moreau Manon, Schepetilnikov Mikhail, Chicher Johana, Langella Olivier, Zivy Michel, Robaglia Christophe, Ryabova Lyubov A, Hanson Johannes, Meyer Christian
Dans: Frontiers in plant science, vol. 7, p. 1611, 2016, ISSN: 1664-462X 1664-462X 1664-462X.
Résumé | Liens | BibTeX | Étiquettes: Phosphorylation, plastid, PPSE, proteomic, Ribosome, RPS6, TOR kinase, transcriptomic, translatomic
@article{dobrenel_arabidopsis_2016,
title = {The Arabidopsis TOR Kinase Specifically Regulates the Expression of Nuclear Genes Coding for Plastidic Ribosomal Proteins and the Phosphorylation of the Cytosolic Ribosomal Protein S6.},
author = {Thomas Dobrenel and Eder Mancera-Martínez and Céline Forzani and Marianne Azzopardi and Marlène Davanture and Manon Moreau and Mikhail Schepetilnikov and Johana Chicher and Olivier Langella and Michel Zivy and Christophe Robaglia and Lyubov A Ryabova and Johannes Hanson and Christian Meyer},
doi = {10.3389/fpls.2016.01611},
issn = {1664-462X 1664-462X 1664-462X},
year = {2016},
date = {2016-01-01},
journal = {Frontiers in plant science},
volume = {7},
pages = {1611},
abstract = {Protein translation is an energy consuming process that has to be fine-tuned at both the cell and organism levels to match the availability of resources. The target of rapamycin kinase (TOR) is a key regulator of a large range of biological processes in response to environmental cues. In this study, we have investigated the effects of TOR inactivation on the expression and regulation of Arabidopsis ribosomal proteins at different levels of analysis, namely from transcriptomic to phosphoproteomic. TOR inactivation resulted in a coordinated down-regulation of the transcription and translation of nuclear-encoded mRNAs coding for plastidic ribosomal proteins, which could explain the chlorotic phenotype of the TOR silenced plants. We have identified in the 5' untranslated regions (UTRs) of this set of genes a conserved sequence related to the 5' terminal oligopyrimidine motif, which is known to confer translational regulation by the TOR kinase in other eukaryotes. Furthermore, the phosphoproteomic analysis of the ribosomal fraction following TOR inactivation revealed a lower phosphorylation of the conserved Ser240 residue in the C-terminal region of the 40S ribosomal protein S6 (RPS6). These results were confirmed by Western blot analysis using an antibody that specifically recognizes phosphorylated Ser240 in RPS6. Finally, this antibody was used to follow TOR activity in plants. Our results thus uncover a multi-level regulation of plant ribosomal genes and proteins by the TOR kinase.},
keywords = {Phosphorylation, plastid, PPSE, proteomic, Ribosome, RPS6, TOR kinase, transcriptomic, translatomic},
pubstate = {published},
tppubtype = {article}
}
Harashima Hirofumi, Dissmeyer Nico, Hammann Philippe, Nomura Yuko, Kramer Katharina, Nakagami Hirofumi, Schnittger Arp
Modulation of plant growth in vivo and identification of kinase substrates using an analog-sensitive variant of CYCLIN-DEPENDENT KINASE A;1. Article de journal
Dans: BMC plant biology, vol. 16, no. 1, p. 209, 2016, ISSN: 1471-2229 1471-2229.
Résumé | Liens | BibTeX | Étiquettes: Arabidopsis, Cell cycle, Kinase, Mitosis, Phosphorylation, PPSE, Substrate
@article{harashima_modulation_2016,
title = {Modulation of plant growth in vivo and identification of kinase substrates using an analog-sensitive variant of CYCLIN-DEPENDENT KINASE A;1.},
author = {Hirofumi Harashima and Nico Dissmeyer and Philippe Hammann and Yuko Nomura and Katharina Kramer and Hirofumi Nakagami and Arp Schnittger},
doi = {10.1186/s12870-016-0900-7},
issn = {1471-2229 1471-2229},
year = {2016},
date = {2016-01-01},
journal = {BMC plant biology},
volume = {16},
number = {1},
pages = {209},
abstract = {BACKGROUND: Modulation of protein activity by phosphorylation through kinases and subsequent de-phosphorylation by phosphatases is one of the most prominent cellular control mechanisms. Thus, identification of kinase substrates is pivotal for the understanding of many - if not all - molecular biological processes. Equally, the possibility to deliberately tune kinase activity is of great value to analyze the biological process controlled by a particular kinase. RESULTS: Here we have applied a chemical genetic approach and generated an analog-sensitive version of CDKA;1, the central cell-cycle regulator in Arabidopsis and homolog of the yeast Cdc2/CDC28 kinases. This variant could largely rescue a cdka;1 mutant and is biochemically active, albeit less than the wild type. Applying bulky kinase inhibitors allowed the reduction of kinase activity in an organismic context in vivo and the modulation of plant growth. To isolate CDK substrates, we have adopted a two-dimensional differential gel electrophoresis strategy, and searched for proteins that showed mobility changes in fluorescently labeled extracts from plants expressing the analog-sensitive version of CDKA;1 with and without adding a bulky ATP variant. A pilot set of five proteins involved in a range of different processes could be confirmed in independent kinase assays to be phosphorylated by CDKA;1 approving the applicability of the here-developed method to identify substrates. CONCLUSION: The here presented generation of an analog-sensitive CDKA;1 version is functional and represent a novel tool to modulate kinase activity in vivo and identify kinase substrates. Our here performed pilot screen led to the identification of CDK targets that link cell proliferation control to sugar metabolism, proline proteolysis, and glucosinolate production providing a hint how cell proliferation and growth are integrated with plant development and physiology.},
keywords = {Arabidopsis, Cell cycle, Kinase, Mitosis, Phosphorylation, PPSE, Substrate},
pubstate = {published},
tppubtype = {article}
}
2015
Durand S, Braun F, Lioliou E, Romilly C, Helfer A C, Kuhn L, Quittot N, Nicolas P, Romby P, Condon C
A Nitric Oxide Regulated Small RNA Controls Expression of Genes Involved in Redox Homeostasis in Bacillus subtilis. Article de journal
Dans: PLoS Genet, vol. 11, no. 2, p. e1004957, 2015, ISBN: 25643072.
Résumé | Liens | BibTeX | Étiquettes: PPSE, ROMBY, Unité ARN
@article{,
title = {A Nitric Oxide Regulated Small RNA Controls Expression of Genes Involved in Redox Homeostasis in Bacillus subtilis.},
author = {S Durand and F Braun and E Lioliou and C Romilly and A C Helfer and L Kuhn and N Quittot and P Nicolas and P Romby and C Condon},
url = {http://www.ncbi.nlm.nih.gov/pubmed/25643072?dopt=Abstract},
doi = {10.1371/journal.pgen.1004957},
isbn = {25643072},
year = {2015},
date = {2015-01-01},
journal = {PLoS Genet},
volume = {11},
number = {2},
pages = {e1004957},
abstract = {RsaE is the only known trans-acting small regulatory RNA (sRNA) besides the ubiquitous 6S RNA that is conserved between the human pathogen Staphylococcus aureus and the soil-dwelling Firmicute Bacillus subtilis. Although a number of RsaE targets are known in S. aureus, neither the environmental signals that lead to its expression nor its physiological role are known. Here we show that expression of the B. subtilis homolog of RsaE is regulated by the presence of nitric oxide (NO) in the cellular milieu. Control of expression by NO is dependent on the ResDE two-component system in B. subtilis and we determined that the same is true in S. aureus. Transcriptome and proteome analyses revealed that many genes with functions related to oxidative stress and oxidation-reduction reactions were up-regulated in a B. subtilis strain lacking this sRNA. We have thus renamed it RoxS. The prediction of RoxS-dependent mRNA targets also suggested a significant enrichment for mRNAs related to respiration and electron transfer. Among the potential direct mRNA targets, we have validated the ppnKB mRNA, encoding an NAD+/NADH kinase, both in vivo and in vitro. RoxS controls both translation initiation and the stability of this transcript, in the latter case via two independent pathways implicating RNase Y and RNase III. Furthermore, RNase Y intervenes at an additional level by processing the 5' end of the RoxS sRNA removing about 20 nucleotides. Processing of RoxS allows it to interact more efficiently with a second target, the sucCD mRNA, encoding succinyl-CoA synthase, thus expanding the repertoire of targets recognized by this sRNA.},
keywords = {PPSE, ROMBY, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
des Georges A, Dhote V, Kuhn L, Hellen C U, Pestova T V, Frank J, Hashem Y
Structure of mammalian eIF3 in the context of the 43S preinitiation complex. Article de journal
Dans: Nature, vol. 525, no. 7570, p. 491-495, 2015, ISBN: 26344199.
Résumé | Liens | BibTeX | Étiquettes: HASHEM, PPSE, Unité ARN
@article{,
title = {Structure of mammalian eIF3 in the context of the 43S preinitiation complex.},
author = {A des Georges and V Dhote and L Kuhn and C U Hellen and T V Pestova and J Frank and Y Hashem},
url = {http://www.ncbi.nlm.nih.gov/pubmed/26344199},
doi = {10.1038/nature14891},
isbn = {26344199},
year = {2015},
date = {2015-01-01},
journal = {Nature},
volume = {525},
number = {7570},
pages = {491-495},
abstract = {During eukaryotic translation initiation, 43S complexes, comprising a 40S ribosomal subunit, initiator transfer RNA and initiation factors (eIF) 2, 3, 1 and 1A, attach to the 5'-terminal region of messenger RNA and scan along it to the initiation codon. Scanning on structured mRNAs also requires the DExH-box protein DHX29. Mammalian eIF3 contains 13 subunits and participates in nearly all steps of translation initiation. Eight subunits having PCI (proteasome, COP9 signalosome, eIF3) or MPN (Mpr1, Pad1, amino-terminal) domains constitute the structural core of eIF3, to which five peripheral subunits are flexibly linked. Here we present a cryo-electron microscopy structure of eIF3 in the context of the DHX29-bound 43S complex, showing the PCI/MPN core at ∼6 Å resolution. It reveals the organization of the individual subunits and their interactions with components of the 43S complex. We were able to build near-complete polyalanine-level models of the eIF3 PCI/MPN core and of two peripheral subunits. The implications for understanding mRNA ribosomal attachment and scanning are discussed.},
keywords = {HASHEM, PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Chicher J, Simonetti A, Kuhn L, Schaeffer L, Hammann P, Eriani G, Martin F
Purification of mRNA-programmed translation initiation complexes suitable for mass spectrometry analysis. Article de journal
Dans: Proteomics, vol. 15, no. 14, p. 2417-2425, 2015, ISBN: 25914180.
Résumé | Liens | BibTeX | Étiquettes: ERIANI, PPSE, Unité ARN
@article{,
title = {Purification of mRNA-programmed translation initiation complexes suitable for mass spectrometry analysis.},
author = {J Chicher and A Simonetti and L Kuhn and L Schaeffer and P Hammann and G Eriani and F Martin},
url = {http://www.ncbi.nlm.nih.gov/pubmed/25914180?dopt=Abstract},
doi = {10.1002/pmic.201400628},
isbn = {25914180},
year = {2015},
date = {2015-01-01},
journal = {Proteomics},
volume = {15},
number = {14},
pages = {2417-2425},
abstract = {Liquid Chromatography coupled to tandem Mass Spectrometry (nanoLC-MS/MS) is a powerful analytical technique for the identification and mass analysis of complex protein mixtures. Here we present a combination of methods developed for the extensive/deep proteomic analysis of purified ribosome/mRNA particles assembled in rabbit reticulocyte lysate (RRL). Ribosomes are assembled on chimeric biotinylated mRNA-DNA molecules immobilized on streptavidin-coated beads and incubated with RRL to form initiation complexes. After washing steps, the complexes are trypsin-digested directly on the beads in semi-native condition or after their elution from the beads in denaturing Laemmli buffer. The nanoLC-MS/MS analysis performed on complexes assembled on β-globin, viral HCV and histone H4 mRNAs revealed significant differences in initiation factors composition in agreement with models of translation initiation used by these different types of mRNAs. Using Laemmli-denaturing condition induces release of deeply buried peptides from the ribosome and eukaryotic initiation factor 3 (eIF3) allowing the identification of the nearly complete set of ribosomal proteins. This article is protected by copyright. All rights reserved.},
keywords = {ERIANI, PPSE, Unité ARN},
pubstate = {published},
tppubtype = {article}
}
Karttunen Sarah, Duffield Michael, Scrimgeour Nathan R, Squires Lauren, Lim Wai Li, Dallas Mark L, Scragg Jason L, Chicher Johana, Dave Keyur A, Whitelaw Murray L, Peers Chris, Gorman Jeffrey J, Gleadle Jonathan M, Rychkov Grigori Y, Peet Daniel J
Oxygen-dependent hydroxylation by FIH regulates the TRPV3 ion channel. Article de journal
Dans: Journal of cell science, vol. 128, no. 2, p. 225–231, 2015, ISSN: 1477-9137 0021-9533, (Place: England).
Résumé | Liens | BibTeX | Étiquettes: alpha Subunit/genetics/*metabolism, Amino Acid Sequence, Ankyrin Repeat/genetics, Cell Hypoxia/*genetics, FIH, HEK293 Cells, Humans, Hydroxylation, Hydroxylation/genetics, Hypoxia, Hypoxia-Inducible Factor 1, Mixed Function Oxygenases/antagonists & inhibitors/genetics/*metabolism, Mutation, Oxygen/metabolism, PPSE, Protein Binding, Repressor Proteins/antagonists & inhibitors/genetics/*metabolism, TRPV Cation Channels/genetics/*metabolism, TRPV3
@article{karttunen_oxygen-dependent_2015,
title = {Oxygen-dependent hydroxylation by FIH regulates the TRPV3 ion channel.},
author = {Sarah Karttunen and Michael Duffield and Nathan R Scrimgeour and Lauren Squires and Wai Li Lim and Mark L Dallas and Jason L Scragg and Johana Chicher and Keyur A Dave and Murray L Whitelaw and Chris Peers and Jeffrey J Gorman and Jonathan M Gleadle and Grigori Y Rychkov and Daniel J Peet},
doi = {10.1242/jcs.158451},
issn = {1477-9137 0021-9533},
year = {2015},
date = {2015-01-01},
journal = {Journal of cell science},
volume = {128},
number = {2},
pages = {225--231},
abstract = {Factor inhibiting HIF (FIH, also known as HIF1AN) is an oxygen-dependent asparaginyl hydroxylase that regulates the hypoxia-inducible factors (HIFs). Several proteins containing ankyrin repeat domains (ARDs) have been characterised as substrates of FIH, although there is little evidence for a functional consequence of hydroxylation on these substrates. This study demonstrates that the transient receptor potential vanilloid 3 (TRPV3) channel is hydroxylated by FIH on asparagine 242 within the cytoplasmic ARD. Hypoxia, FIH inhibitors and mutation of asparagine 242 all potentiated TRPV3-mediated current, without altering TRPV3 protein levels, indicating that oxygen-dependent hydroxylation inhibits TRPV3 activity. This novel mechanism of channel regulation by oxygen-dependent asparaginyl hydroxylation is likely to extend to other ion channels.},
note = {Place: England},
keywords = {alpha Subunit/genetics/*metabolism, Amino Acid Sequence, Ankyrin Repeat/genetics, Cell Hypoxia/*genetics, FIH, HEK293 Cells, Humans, Hydroxylation, Hydroxylation/genetics, Hypoxia, Hypoxia-Inducible Factor 1, Mixed Function Oxygenases/antagonists & inhibitors/genetics/*metabolism, Mutation, Oxygen/metabolism, PPSE, Protein Binding, Repressor Proteins/antagonists & inhibitors/genetics/*metabolism, TRPV Cation Channels/genetics/*metabolism, TRPV3},
pubstate = {published},
tppubtype = {article}
}
Weber-Lotfi Frédérique, Koulintchenko Milana V, Ibrahim Noha, Hammann Philippe, Mileshina Daria V, Konstantinov Yuri M, Dietrich André
Nucleic acid import into mitochondria: New insights into the translocation pathways. Article de journal
Dans: Biochimica et biophysica acta, vol. 1853, no. 12, p. 3165–3181, 2015, ISSN: 0006-3002 0006-3002, (Place: Netherlands).
Résumé | Liens | BibTeX | Étiquettes: Arabidopsis/metabolism, Biological Transport, Import factor, mitochondria, Mitochondria/*metabolism, Nucleic acid transport, Nucleic Acids/*metabolism, Permeability transition pore, Plant, PPSE, Saccharomyces cerevisiae/metabolism, Yeast
@article{weber-lotfi_nucleic_2015,
title = {Nucleic acid import into mitochondria: New insights into the translocation pathways.},
author = {Frédérique Weber-Lotfi and Milana V Koulintchenko and Noha Ibrahim and Philippe Hammann and Daria V Mileshina and Yuri M Konstantinov and André Dietrich},
doi = {10.1016/j.bbamcr.2015.09.011},
issn = {0006-3002 0006-3002},
year = {2015},
date = {2015-01-01},
journal = {Biochimica et biophysica acta},
volume = {1853},
number = {12},
pages = {3165--3181},
abstract = {Mitochondria have retained indispensable but limited genetic information and they import both proteins and nucleic acids from the cytosol. RNA import is essential for gene expression and regulation, whereas competence for DNA uptake is likely to contribute to organellar genome dynamics and evolution. Contrary to protein import mechanisms, the way nucleic acids cross the mitochondrial membranes remains poorly understood. Using proteomic, genetic and biochemical approaches with both plant and yeast organelles, we develop here a model for DNA uptake into mitochondria. The first step includes the voltage-dependent anion channel and an outer membrane-located precursor fraction of a protein normally located in the inner membrane. To proceed, the DNA is then potentially recruited in the intermembrane space by an accessible subunit of one of the respiratory chain complexes. Final translocation through the inner membrane remains the most versatile but points to the components considered to make the mitochondrial permeability transition pore. Depending on the size, DNA and RNA cooperate or compete for mitochondrial uptake, which shows that they share import mechanisms. On the other hand, our results imply the existence of more than one route for nucleic acid translocation into mitochondria.},
note = {Place: Netherlands},
keywords = {Arabidopsis/metabolism, Biological Transport, Import factor, mitochondria, Mitochondria/*metabolism, Nucleic acid transport, Nucleic Acids/*metabolism, Permeability transition pore, Plant, PPSE, Saccharomyces cerevisiae/metabolism, Yeast},
pubstate = {published},
tppubtype = {article}
}
2014
Poirier Isabelle, Kuhn Lauriane, Caplat Christelle, Hammann Philippe, Bertrand Martine
The effect of cold stress on the proteome of the marine bacterium Pseudomonas fluorescens BA3SM1 and its ability to cope with metal excess. Article de journal
Dans: Aquatic toxicology (Amsterdam, Netherlands), vol. 157, p. 120–133, 2014, ISSN: 1879-1514 0166-445X.
Résumé | Liens | BibTeX | Étiquettes: PPSE
@article{poirier_effect_2014,
title = {The effect of cold stress on the proteome of the marine bacterium Pseudomonas fluorescens BA3SM1 and its ability to cope with metal excess.},
author = {Isabelle Poirier and Lauriane Kuhn and Christelle Caplat and Philippe Hammann and Martine Bertrand},
doi = {10.1016/j.aquatox.2014.10.002},
issn = {1879-1514 0166-445X},
year = {2014},
date = {2014-12-01},
journal = {Aquatic toxicology (Amsterdam, Netherlands)},
volume = {157},
pages = {120--133},
abstract = {This study examined the effect of cold stress on the proteome and metal tolerance of Pseudomonas fluorescens BA3SM1, a marine strain isolated from tidal flat sediments. When cold stress (+10 °C for 36 h) was applied before moderate metal stress (0.4 mM Cd, 0.6 mM Cd, 1.5 mM Zn, and 1.5 mM Cu), growth disturbances induced by metal, in comparison with respective controls, were reduced for Cd and Zn while they were pronounced for Cu. This marine strain was able to respond to cold stress through a number of changes in protein regulation. Analysis of the predicted differentially expressed protein functions demonstrated that some mechanisms developed under cold stress were similar to those developed in response to Cd, Zn, and Cu. Therefore, pre-cold stress could help this strain to better counteract toxicity of moderate concentrations of some metals. P. fluorescens BA3SM1 was able to remove up to 404.3 mg Cd/g dry weight, 172.5 mg Zn/g dry weight, and 11.3 mg Cu/g dry weight and its metal biosorption ability seemed to be related to the bacterial growth phase. Thus, P. fluorescens BA3SM1 appears as a promising agent for bioremediation processes, even at low temperatures.},
keywords = {PPSE},
pubstate = {published},
tppubtype = {articl