Publications
2012
Dehuyser L, Schaeffer E, Chaloin O, Mueller C G, Baati R, Wagner A
Synthesis of Novel Mannoside Glycolipid Conjugates for Inhibition of HIV-1 Trans-Infection Article de journal
Dans: Bioconjug.Chem., no. 1520-4812 (Electronic), 2012.
Résumé | BibTeX | Étiquettes: Dendritic Cells, HIV-1, Human, immunodeficiency, infection, inhibition, LECTIN, Lectins, lipid, Mannose-Binding Lectins, prevention, Solubility, Surface Plasmon Resonance, synthesis, Team-Mueller, virus
@article{dehuyser_synthesis_2012,
title = {Synthesis of Novel Mannoside Glycolipid Conjugates for Inhibition of HIV-1 Trans-Infection},
author = {L Dehuyser and E Schaeffer and O Chaloin and C G Mueller and R Baati and A Wagner},
year = {2012},
date = {2012-01-01},
journal = {Bioconjug.Chem.},
number = {1520-4812 (Electronic)},
abstract = {Mannose-binding lectins, such as dendritic cell-specific ICAM-3-grabbing non-integrin (DC-SIGN), are expressed at the surface of human dendritic cells (DCs) that capture and transmit human immunodeficiency virus type-1 (HIV-1) to CD4(+) cells. With the goal of reducing viral trans-infection by targeting DC-SIGN, we have designed a new class of mannoside glycolipid conjugates. We report the synthesis of amphiphiles composed of a mannose head, a hydrophilic linker essential for solubility in aqueous media, and a lipid chain of variable length. These conjugates presented unusual properties based on a cooperation between the mannoside head and the lipid chain, which enhanced the affinity and decreased the need for multivalency. With an optimal lipid length, they exhibited strong binding affinity for DC-SIGN (K(d) in the micromolar range) as assessed by surface plasmon resonance. The most active molecules were branched trimannoside conjugates, able to inhibit the interaction of the HIV-1 envelope with DCs, and to drastically reduce trans-infection of HIV-1 mediated by DCs (IC(50s) in the low micromolar range). This new class of compounds may be of potential use for prevention of HIV-1 dissemination, and also of infection by other DC-SIGN-binding human pathogens},
keywords = {Dendritic Cells, HIV-1, Human, immunodeficiency, infection, inhibition, LECTIN, Lectins, lipid, Mannose-Binding Lectins, prevention, Solubility, Surface Plasmon Resonance, synthesis, Team-Mueller, virus},
pubstate = {published},
tppubtype = {article}
}
2011
Ciobanu M, Huang K T, Daguer J P, Barluenga S, Chaloin O, Schaeffer E, Mueller C G, Mitchell D A, Winssinger N
Selection of a synthetic glycan oligomer from a library of DNA-templated fragments against DC-SIGN and inhibition of HIV gp120 binding to dendritic cells Article de journal
Dans: Chem.Commun.(Camb.), no. 1364-548X (Electronic), 2011.
Résumé | BibTeX | Étiquettes: Dendritic Cells, GP120, HIV, IDENTIFICATION, inhibition, ligand, mannan, synthesis, Team-Mueller
@article{ciobanu_selection_2011,
title = {Selection of a synthetic glycan oligomer from a library of DNA-templated fragments against DC-SIGN and inhibition of HIV gp120 binding to dendritic cells},
author = {M Ciobanu and K T Huang and J P Daguer and S Barluenga and O Chaloin and E Schaeffer and C G Mueller and D A Mitchell and N Winssinger},
year = {2011},
date = {2011-07-01},
journal = {Chem.Commun.(Camb.)},
number = {1364-548X (Electronic)},
abstract = {We report the synthesis of a nucleic acid-encoded carbohydrate library, its combinatorial self-assembly into 37 485 pairs and a screen against DC-SIGN leading to the identification of consensus ligand motifs. A prototypical example from the selected pairs was shown to have enhanced binding. A dendrimer incorporating the selected motifs inhibited gp120's binding to dendritic cells with higher efficiency than mannan},
keywords = {Dendritic Cells, GP120, HIV, IDENTIFICATION, inhibition, ligand, mannan, synthesis, Team-Mueller},
pubstate = {published},
tppubtype = {article}
}
2006
Durand Stéphanie H, Flacher Vincent, Roméas Annick, Carrouel Florence, Colomb Evelyne, Vincent Claude, Magloire Henry, Couble Marie-Lise, Bleicher Françoise, Staquet Marie-Jeanne, Lebecque Serge, Farges Jean-Christophe
Lipoteichoic acid increases TLR and functional chemokine expression while reducing dentin formation in in vitro differentiated human odontoblasts Article de journal
Dans: Journal of Immunology (Baltimore, Md.: 1950), vol. 176, no. 5, p. 2880–2887, 2006, ISSN: 0022-1767.
Résumé | Liens | BibTeX | Étiquettes: Activation, Analysis, bacteria, Biosynthesis, BLOOD, Blood Vessels, Cell Differentiation, Cells, Chemistry, chemokines, COLLAGEN, Cultured, CXCL10, cytology, Dendritic Cells, DENTAL PULP, Dentin, development, Down-Regulation, Expression, extracellular, EXTRACELLULAR MATRIX, Extracellular Matrix Proteins, function, Gene, Gene Expression, Genes, Genetics, Gram-Positive Bacteria, Human, Humans, IMMATURE, Immunology, IN VITRO, In vivo, Innate immune response, lipopolysaccharide, Lipopolysaccharides, metabolism, migration, Odontoblasts, Organ Culture Techniques, Pharmacology, physiology, PRODUCTION, Protein, Proteins, Receptor, recognition, synthesis, Team-Mueller, Teichoic Acids, TLR7, Toll-Like Receptor 2, Up-Regulation
@article{durand_lipoteichoic_2006,
title = {Lipoteichoic acid increases TLR and functional chemokine expression while reducing dentin formation in in vitro differentiated human odontoblasts},
author = {Stéphanie H Durand and Vincent Flacher and Annick Roméas and Florence Carrouel and Evelyne Colomb and Claude Vincent and Henry Magloire and Marie-Lise Couble and Françoise Bleicher and Marie-Jeanne Staquet and Serge Lebecque and Jean-Christophe Farges},
doi = {10.4049/jimmunol.176.5.2880},
issn = {0022-1767},
year = {2006},
date = {2006-03-01},
journal = {Journal of Immunology (Baltimore, Md.: 1950)},
volume = {176},
number = {5},
pages = {2880--2887},
abstract = {Gram-positive bacteria entering the dentinal tissue during the carious process are suspected to influence the immune response in human dental pulp. Odontoblasts situated at the pulp/dentin interface are the first cells encountered by these bacteria and therefore could play a crucial role in this response. In the present study, we found that in vitro-differentiated odontoblasts constitutively expressed the pattern recognition receptor TLR1-6 and 9 genes but not TLR7, 8, and 10. Furthermore, lipoteichoic acid (LTA), a wall component of Gram-positive bacteria, triggered the activation of the odontoblasts. LTA up-regulated the expression of its own receptor TLR2, as well as the production of several chemokines. In particular, an increased amount of CCL2 and CXCL10 was detected in supernatants from LTA-stimulated odontoblasts, and those supernatants augmented the migration of immature dendritic cells in vitro compared with controls. Clinical relevance of these observations came from immunohistochemical analysis showing that CCL2 was expressed in vivo by odontoblasts and blood vessels present under active carious lesions but not in healthy dental pulps. In contrast with this inflammatory response, gene expression of major dentin matrix components (type I collagen, dentin sialophosphoprotein) and TGF-beta1 was sharply down-regulated in odontoblasts by LTA. Taken together, these data suggest that odontoblasts activated through TLR2 by Gram-positive bacteria LTA are able to initiate an innate immune response by secreting chemokines that recruit immature dendritic cells while down-regulating their specialized functions of dentin matrix synthesis and mineralization.},
keywords = {Activation, Analysis, bacteria, Biosynthesis, BLOOD, Blood Vessels, Cell Differentiation, Cells, Chemistry, chemokines, COLLAGEN, Cultured, CXCL10, cytology, Dendritic Cells, DENTAL PULP, Dentin, development, Down-Regulation, Expression, extracellular, EXTRACELLULAR MATRIX, Extracellular Matrix Proteins, function, Gene, Gene Expression, Genes, Genetics, Gram-Positive Bacteria, Human, Humans, IMMATURE, Immunology, IN VITRO, In vivo, Innate immune response, lipopolysaccharide, Lipopolysaccharides, metabolism, migration, Odontoblasts, Organ Culture Techniques, Pharmacology, physiology, PRODUCTION, Protein, Proteins, Receptor, recognition, synthesis, Team-Mueller, Teichoic Acids, TLR7, Toll-Like Receptor 2, Up-Regulation},
pubstate = {published},
tppubtype = {article}
}