Publications
2018
Muller Quentin, Beaudet Marie-Josée, Serres-Bérard Thiéry De, Bellenfant Sabrina, Flacher Vincent, Berthod François
Development of an innervated tissue-engineered skin with human sensory neurons and Schwann cells differentiated from iPS cells Journal Article
In: Acta Biomaterialia, vol. 82, pp. 93–101, 2018, ISSN: 1878-7568.
Abstract | Links | BibTeX | Tags: atopic dermatitis, Axonal migration, Biological, Canada, Cells, CGRP, Chemistry, COLLAGEN, Culture, Dermatitis, development, disease, Endothelial Cells, ENDOTHELIAL-CELLS, Epidermis, Expression, Fibroblast, Fibroblasts, function, Human, Humans, Immune System, Immunology, immunopathology, IN VITRO, Induced Pluripotent Stem Cells, inflammation, INNERVATION, Maturation, migration, Models, mouse, murine, Nerve, Neurites, Neurogenic Inflammation, Neurons, NEUROPEPTIDE, Neuropeptides, physiopathology, Pluripotent Stem Cells, Psoriasis, SCHWANN CELLS, Sensory Receptor Cells, Skin, skin disease, Skin Diseases, stem, Stem Cells, SUBSTANCE, SUBSTANCE P, Team-Mueller, Tissue Engineering, TRPV1
@article{muller_development_2018,
title = {Development of an innervated tissue-engineered skin with human sensory neurons and Schwann cells differentiated from iPS cells},
author = {Quentin Muller and Marie-Josée Beaudet and Thiéry De Serres-Bérard and Sabrina Bellenfant and Vincent Flacher and François Berthod},
doi = {10.1016/j.actbio.2018.10.011},
issn = {1878-7568},
year = {2018},
date = {2018-01-01},
journal = {Acta Biomaterialia},
volume = {82},
pages = {93--101},
abstract = {Cutaneous innervation is increasingly recognized as a major element of skin physiopathology through the neurogenic inflammation driven by neuropeptides that are sensed by endothelial cells and the immune system. To investigate this process in vitro, models of innervated tissue-engineered skin (TES) were developed, yet exclusively with murine sensory neurons extracted from dorsal root ganglions. In order to build a fully human model of innervated TES, we used induced pluripotent stem cells (iPSC) generated from human skin fibroblasts. Nearly 100% of the iPSC differentiated into sensory neurons were shown to express the neuronal markers BRN3A and β3-tubulin after 19 days of maturation. In addition, these cells were also positive to TRPV1 and neurofilament M, and some of them expressed Substance P, TrkA and TRPA1. When stimulated with molecules inducing neuropeptide release, iPSC-derived neurons released Substance P and CGRP, both in conventional monolayer culture and after seeding in a 3D fibroblast-populated collagen sponge model. Schwann cells, the essential partners of neurons for function and axonal migration, were also successfully differentiated from human iPSC as shown by their expression of the markers S100, GFAP, p75 and SOX10. When cultured for one additional month in the TES model, iPSC-derived neurons seeded at the bottom of the sponge formed a network of neurites spanning the whole TES up to the epidermis, but only when combined with mouse or iPSC-derived Schwann cells. This unique model of human innervated TES should be highly useful for the study of cutaneous neuroinflammation. STATEMENT OF SIGNIFICANCE: The purpose of this work was to develop in vitro an innovative fully human tissue-engineered skin enabling the investigation of the influence of cutaneous innervation on skin pathophysiology. To reach that aim, neurons were differentiated from human induced pluripotent stem cells (iPSCs) generated from normal human skin fibroblasts. This innervated tissue-engineered skin model will be the first one to show iPSC-derived neurons can be successfully used to build a 3D nerve network in vitro. Since innervation has been recently recognized to play a central role in many human skin diseases, such as psoriasis and atopic dermatitis, this construct promises to be at the forefront to model these diseases while using patient-derived cells.},
keywords = {atopic dermatitis, Axonal migration, Biological, Canada, Cells, CGRP, Chemistry, COLLAGEN, Culture, Dermatitis, development, disease, Endothelial Cells, ENDOTHELIAL-CELLS, Epidermis, Expression, Fibroblast, Fibroblasts, function, Human, Humans, Immune System, Immunology, immunopathology, IN VITRO, Induced Pluripotent Stem Cells, inflammation, INNERVATION, Maturation, migration, Models, mouse, murine, Nerve, Neurites, Neurogenic Inflammation, Neurons, NEUROPEPTIDE, Neuropeptides, physiopathology, Pluripotent Stem Cells, Psoriasis, SCHWANN CELLS, Sensory Receptor Cells, Skin, skin disease, Skin Diseases, stem, Stem Cells, SUBSTANCE, SUBSTANCE P, Team-Mueller, Tissue Engineering, TRPV1},
pubstate = {published},
tppubtype = {article}
}
2011
Bechetoille N, Vachon H, Gaydon A, Boher A, Fontaine T, Schaeffer E, Decossas M, Andre-Frei V, Mueller C G
A new organotypic model containing dermal-type macrophages Journal Article
In: Experimental Dermatology, vol. 20, no. 1600-0625 (Electronic), pp. 1035–1037, 2011.
Abstract | BibTeX | Tags: CELL CULTURE, Chemistry, Culture, cytokine, Dendritic Cells, DERMATOLOGY, Fibroblast, Fibroblasts, HLA-DR, Human, IL-10, IL10, Immunology, Latex, Letter, lipopolysaccharide, LPS, Macrophage, Macrophages, monocyte, Monocytes, Skin, Team-Mueller
@article{bechetoille_new_2011,
title = {A new organotypic model containing dermal-type macrophages},
author = {N Bechetoille and H Vachon and A Gaydon and A Boher and T Fontaine and E Schaeffer and M Decossas and V Andre-Frei and C G Mueller},
year = {2011},
date = {2011-01-01},
journal = {Experimental Dermatology},
volume = {20},
number = {1600-0625 (Electronic)},
pages = {1035--1037},
abstract = {Human skin equivalents (SEs) are popular three-dimensional (D) cell culture systems in fundamental and applied dermatology. They have been made to contain dendritic cells, but so far no study on the incorporation of potentially anti-inflammatory dermal macrophages has been performed. Here, we show that monocyte-derived dermal-type macrophages can be introduced into a rigid scaffold with dermal fibroblasts. They maintain their cell surface markers CD163, DC-SIGN/CD209 and HLA-DR, which discriminate them from monocytes and dendritic cells. They retain the ability to produce the anti-inflammatory cytokine IL-10 in response to lipopolysaccharide (LPS) and to phagocytose latex beads. We thus demonstrate the feasibility of creating macrophage-fibroblast 3D cultures as a first step towards generating SEs with dermal macrophages},
keywords = {CELL CULTURE, Chemistry, Culture, cytokine, Dendritic Cells, DERMATOLOGY, Fibroblast, Fibroblasts, HLA-DR, Human, IL-10, IL10, Immunology, Latex, Letter, lipopolysaccharide, LPS, Macrophage, Macrophages, monocyte, Monocytes, Skin, Team-Mueller},
pubstate = {published},
tppubtype = {article}
}
2004
Martineau Y., Bec C. Le, Monbrun L., Allo V., Chiu I. M., Danos O., Moine H., Prats H., Prats A. C.
Internal ribosome entry site structural motifs conserved among mammalian fibroblast growth factor 1 alternatively spliced mRNAs Journal Article
In: Mol Cell Biol, vol. 24, no. 17, pp. 7622-35, 2004, (0270-7306 Journal Article).
Abstract | BibTeX | Tags: (Genetics), *5', *Alternative, *Nucleic, *Promoter, 1/*genetics, Acid, Alignment, Animals, Base, Cell, Conformation, Data, EHRESMANN, Factor, Fibroblast, Gene, Genes, Genetic, Gov't, Growth, Human, Line, Messenger/chemistry/*genetics/metabolism, Mice, Molecular, Muscle, Mutagenesis, Non-U.S., Regions, Ribosomes/*metabolism, RNA, Sequence, Site-Directed, Skeletal/cytology/physiology, Splicing, Structural/genetics, Support, Techniques, Transfer, Untranslated, Vectors
@article{,
title = {Internal ribosome entry site structural motifs conserved among mammalian fibroblast growth factor 1 alternatively spliced mRNAs},
author = { Y. Martineau and C. Le Bec and L. Monbrun and V. Allo and I. M. Chiu and O. Danos and H. Moine and H. Prats and A. C. Prats},
year = {2004},
date = {2004-01-01},
journal = {Mol Cell Biol},
volume = {24},
number = {17},
pages = {7622-35},
abstract = {Fibroblast growth factor 1 (FGF-1) is a powerful angiogenic factor whose gene structure contains four promoters, giving rise to a process of alternative splicing resulting in four mRNAs with alternative 5' untranslated regions (5' UTRs). Here we have identified, by using double luciferase bicistronic vectors, the presence of internal ribosome entry sites (IRESs) in the human FGF-1 5' UTRs, particularly in leaders A and C, with distinct activities in mammalian cells. DNA electrotransfer in mouse muscle revealed that the IRES present in the FGF-1 leader A has a high activity in vivo. We have developed a new regulatable TET OFF bicistronic system, which allowed us to rule out the possibility of any cryptic promoter in the FGF-1 leaders. FGF-1 IRESs A and C, which were mapped in fragments of 118 and 103 nucleotides, respectively, are flexible in regard to the position of the initiation codon, making them interesting from a biotechnological point of view. Furthermore, we show that FGF-1 IRESs A of murine and human origins show similar IRES activity profiles. Enzymatic and chemical probing of the FGF-1 IRES A RNA revealed a structural domain conserved among mammals at both the nucleotide sequence and RNA structure levels. The functional role of this structural motif has been demonstrated by point mutagenesis, including compensatory mutations. These data favor an important role of IRESs in the control of FGF-1 expression and provide a new IRES structural motif that could help IRES prediction in 5' UTR databases.},
note = {0270-7306
Journal Article},
keywords = {(Genetics), *5', *Alternative, *Nucleic, *Promoter, 1/*genetics, Acid, Alignment, Animals, Base, Cell, Conformation, Data, EHRESMANN, Factor, Fibroblast, Gene, Genes, Genetic, Gov't, Growth, Human, Line, Messenger/chemistry/*genetics/metabolism, Mice, Molecular, Muscle, Mutagenesis, Non-U.S., Regions, Ribosomes/*metabolism, RNA, Sequence, Site-Directed, Skeletal/cytology/physiology, Splicing, Structural/genetics, Support, Techniques, Transfer, Untranslated, Vectors},
pubstate = {published},
tppubtype = {article}
}
2003
Bonnal S., Schaeffer C., Creancier L., Clamens S., Moine H., Prats A. C., Vagner S.
A single internal ribosome entry site containing a G quartet RNA structure drives fibroblast growth factor 2 gene expression at four alternative translation initiation codons Journal Article
In: J Biol Chem, vol. 278, no. 41, pp. 39330-6, 2003, (0021-9258 Journal Article).
Abstract | BibTeX | Tags: 2/*genetics, Acid, Alternative, Base, Cell, Chain, Codon, Complementary/genetics, Conformation, Data, Deletion, DNA, Expression, Factor, Fibroblast, Gene, Gov't, Growth, Human, initiation, Initiator/genetics, Line, Messenger/*chemistry/*genetics, Molecular, Non-U.S., Nucleic, Peptide, Ribosomes/*metabolism, RNA, Sequence, Splicing, Support, Transfection
@article{,
title = {A single internal ribosome entry site containing a G quartet RNA structure drives fibroblast growth factor 2 gene expression at four alternative translation initiation codons},
author = { S. Bonnal and C. Schaeffer and L. Creancier and S. Clamens and H. Moine and A. C. Prats and S. Vagner},
year = {2003},
date = {2003-01-01},
journal = {J Biol Chem},
volume = {278},
number = {41},
pages = {39330-6},
abstract = {The 484-nucleotide (nt) alternatively translated region (ATR) of the human fibroblast growth factor 2 (FGF-2) mRNA contains four CUG and one AUG translation initiation codons. Although the 5'-end proximal CUG codon is initiated by a cap-dependent translation process, the other four initiation codons are initiated by a mechanism of internal entry of ribosomes. We undertook here a detailed analysis of the cis-acting elements defining the FGF-2 internal ribosome entry site (IRES). A thorough deletion analysis study within the 5'-ATR led us to define a 176-nt region as being necessary and sufficient for IRES function at four codons present in a downstream 308-nt RNA segment. Unexpectedly, a single IRES module is therefore responsible for translation initiation at four distantly localized codons. The determination of the FGF-2 5'-ATR RNA secondary structure by enzymatic and chemical probing experiments showed that the FGF-2 IRES contained two stem-loop regions and a G quartet motif that constitute novel structural determinants of IRES function.},
note = {0021-9258
Journal Article},
keywords = {2/*genetics, Acid, Alternative, Base, Cell, Chain, Codon, Complementary/genetics, Conformation, Data, Deletion, DNA, Expression, Factor, Fibroblast, Gene, Gov't, Growth, Human, initiation, Initiator/genetics, Line, Messenger/*chemistry/*genetics, Molecular, Non-U.S., Nucleic, Peptide, Ribosomes/*metabolism, RNA, Sequence, Splicing, Support, Transfection},
pubstate = {published},
tppubtype = {article}
}