Your search keyword '"Rémy, Séverine"' showing total 7 results

1. IL‐34 deficiency impairs FOXP3+ Treg function in a model of autoimmune colitis and decreases immune tolerance homeostasis.

Author

Freuchet, Antoine, Salama, Apolline, Bézie, Séverine, Tesson, Laurent, Rémy, Séverine, Humeau, Romain, Règue, Hadrien, Sérazin, Céline, Flippe, Léa, Peterson, Pärt, Vimond, Nadège, Usal, Claire, Ménoret, Séverine, Heslan, Jean‐Marie, Duteille, Franck, Blanchard, Frédéric, Giral, Magali, Colonna, Marco, Anegon, Ignacio, and Guillonneau, Carole

Subjects

IMMUNOLOGICAL tolerance, HOMEOSTASIS, COLITIS, GRAFT rejection, REGULATORY T cells, KIDNEYS, MONOCYTES

Abstract

Background: Immune homeostasis requires fully functional Tregs with a stable phenotype to control autoimmunity. Although IL‐34 is a cytokine first described as mainly involved in monocyte cell survival and differentiation, we recently described its expression by CD8+ Tregs in a rat model of transplantation tolerance and by activated FOXP3+ CD4+ and CD8+ Tregs in human healthy individuals. However, its role in autoimmunity and potential in human diseases remains to be determined. Methods: We generated Il34−/− rats and using both Il34−/− rats and mice, we investigated their phenotype under inflammatory conditions. Using Il34−/− rats, we further analyzed the impact of the absence of expression of IL‐34 for CD4+ Tregs suppressive function. We investigated the potential of IL‐34 in human disease to prevent xenogeneic GVHD and human skin allograft rejection in immune humanized immunodeficient NSG mice. Finally, taking advantage of a biocollection, we investigated the correlation between presence of IL‐34 in the serum and kidney transplant rejection. Results: Here we report that the absence of expression of IL‐34 in Il34−/− rats and mice leads to an unstable immune phenotype, with production of multiple auto‐antibodies, exacerbated under inflammatory conditions with increased susceptibility to DSS‐ and TNBS‐colitis in Il34−/− animals. Moreover, we revealed the striking inability of Il34−/− CD4+ Tregs to protect Il2rg−/− rats from a wasting disease induced by transfer of pathogenic cells, in contrast to Il34+/+ CD4+ Tregs. We also showed that IL‐34 treatment delayed EAE in mice as well as GVHD and human skin allograft rejection in immune humanized immunodeficient NSG mice. Finally, we show that presence of IL‐34 in the serum is associated with a longer rejection‐free period in kidney transplanted patients. Conclusion: Altogether, our data emphasize on the crucial necessity of IL‐34 for immune homeostasis and for CD4+ Tregs suppressive function. Our data also shows the therapeutic potential of IL‐34 in human transplantation and auto‐immunity. Highlights: –Absence of expression of IL‐34 in Il34−/− rats and mice leads to an unstable immune phenotype, with a production of multiple auto‐antibodies and exacerbated immune pathology under inflammatory conditions.–Il34−/− CD4+ Tregs are unable to protect Il2rg−/− rats from colitis induced by transfer of pathogenic cells.–IL‐34 treatment delayed EAE in mice, as well as acute GVHD and human skin allograft rejection in immune‐humanized immunodeficient NSG mice. [ABSTRACT FROM AUTHOR]

Published

2022

2. Ceruloplasmin deficiency does not induce macrophagic iron overload: lessons from a new rat model of hereditary aceruloplasminemia.

Author

Kenawi, Moussa, Rouger, Emmanuel, Island, Marie-Laure, Leroyer, Patricia, Robin, François, Rémy, Séverine, Tesson, Laurent, Anegon, Ignacio, Nay, Kévin, Derbré, Frédéric, Brissot, Pierre, Ropert, Martine, Cavey, Thibault, and Loréal, Olivier

Published

2019

3. Generation of Rag1-knockout immunodeficient rats and mice using engineered meganucleases.

Author

Mérioret, Severine, Fontanière, Sandra, Jantz, Derek, Tesson, Laurent, Thinard, Reynald, Rémy, Séverine, Usal, Claire, Ouisse, Laure-Hélène, Fraichard, Alexandre, and Anegon, Ignacio

Subjects

IMMUNODEFICIENCY, IMMUNOLOGY, NUCLEASES, GENOMES, IMMUNOPHENOTYPING

Abstract

Despite the recent availability of genespecific nucleases, such as zinc-finger nucleases (ZFNs) and transcription activator-like nucleases (TALENs), there is still a need for new tools to modify the genome of different species in an efficient, rapid, and less costly manner. One aim of this study was to apply, for the first time, engineered meganucleases to mutate an endogenous gene in animal zygotes. The second aim was to target the mouse and rat recombination activating gene 1 (Rag1) to describe, for the first time, Rag1 knockout immunodeficient rats. We microinjected a plasmid encoding a meganuclease for Rag1 into the pronucleus of mouse and rat zygotes. Mutant animals were detected by PCR sequencing of the targeted sequence. A homozygous RAGl-deficient rat line was generated and immunophenotyped. Meganucleases were efficient, because 3.4 and 0.6% of mouse and rat microinjected zygotes, respectively, generated mutated animals. RAG1-deficient rats showed significantly decreased proportions and numbers of immature and mature T and B lymphocytes and normal NK cells vs. littermate wild-type controls. In summary, we describe the use of engineered meganucleases to inactivate an endogenous gene with efficiencies comparable to those of ZFNs and TALENs. Moreover, we generated an immunodeficient rat line useful for studies in which there is a need for biological parameters to be analyzed in the absence of immune responses. [ABSTRACT FROM AUTHOR]

Published

2013

4. Carbon monoxide-treated dendritic cells decrease β1-integrin induction on CD8+ T cells and protect from type 1 diabetes.

Author

Simon, Thomas, Pogu, Sylvie, Tardif, Virginie, Rigaud, Kevin, Rémy, Séverine, Piaggio, Eliane, Bach, Jean‐Marie, Anegon, Ignacio, and Blancou, Philippe

Abstract

Carbon monoxide (CO) treatment improves pathogenic outcome of autoimmune diseases by promoting tolerance. However, the mechanism behind this protective tolerance is not yet defined. Here, we show in a transgenic mouse model for autoimmune diabetes that ex vivo gaseous CO (gCO)-treated DCs loaded with pancreatic β-cell peptides protect mice from disease. This protection is peptide-restricted, independent of IL-10 secretion by DCs and of CD4+ T cells. Although no differences were observed in autoreactive CD8+ T-cell function from gCO-treated versus untreated DC-immunized groups, gCO-treated DCs strongly inhibited accumulation of autoreactive CD8+ T cells in the pancreas. Interestingly, induction of β1-integrin was curtailed when CD8+ T cells were primed with gCO-treated DCs, and the capacity of these CD8+ T cells to lyse isolated islet was dramatically impaired. Thus, immunotherapy using CO-treated DCs appears to be an original strategy to control autoimmune disease. [ABSTRACT FROM AUTHOR]

Published

2013

5. Characterization of immunoglobulin heavy chain knockout rats.

Author

Ménoret, Séverine, Iscache, Anne-L., Tesson, Laurent, Rémy, Séverine, Usal, Claire, Osborn, Michel J., Cost, Gregory J., Brüggemann, Marianne, Buelow, Roland, and Anegon, Ignacio

Abstract

The rat is a species frequently used in immunological studies but, until now, there were no models with introduced gene-specific mutations. In a recent study, we described for the first time the generation of novel rat lines with targeted mutations using zinc-finger nucleases. In this study, we compare immune development in two Ig heavy-chain KO lines; one with truncated Cμ and a new line with removed JH segments. Rats homozygous for IgM mutation generate truncated Cμ mRNA with a de novo stop codon and no Cγ mRNA. JH-deletion rats showed undetectable mRNA for all H-chain transcripts. No serum IgM, IgG, IgA and IgE were detected in these rat lines. In both lines, lymphoid B-cell numbers were reduced >95% versus WT animals. In rats homozygous for IgM mutation, no Ab-mediated hyperacute allograft rejection was encountered. Similarities in B-cell differentiation seen in Ig KO rats and ES cell-derived Ig KO mice are discussed. These Ig and B-cell-deficient rats obtained using zinc-finger nucleases-technology should be useful as biomedical research models and a powerful platform for transgenic animals expressing a human Ab repertoire. [ABSTRACT FROM AUTHOR]

Published

2010

6. IDO expands human CD4.

Author

Hill, Marcelo, Tanguy-Royer, Séverine, Royer, Pierre, Chauveau, Christine, Asghar, Kashif, Tesson, Laurent, Lavainne, Frédéric, Rémy, Séverine, Brion, Régis, Hubert, François-Xavier, Heslan, Michèle, Rimbert, Marie, Berthelot, Laureline, Moffett, John R., Josien, Régis, Grégoire, Marc, and Anegon, Ignacio

Published

2007

7. Different mechanisms mediate the rejection of porcine neurons and endothelial cells transplanted into the rat brain.

Author

Rémy, Séverine, Canova, Cécile, Daguin-Nerrière, Véronique, Martin, Caroline, Melchior, Benoît, Neveu, Isabelle, Charreau, Béatrice, Soulillou, Jean-Paul, and Brachet, Philippe

Subjects

*GRAFT rejection, *NEURON transplantation, *CELL transplantation, *VETERINARY immunogenetics

Abstract

Abstract: In order to investigate the early cellular responses mediating xenograft rejection in the brain, porcine aortic endothelial cells (PAEC) or porcine fetal mesencephalic neurons (PNEU) were transplanted into the striatum of LEW.1A rats. PAEC were detected with a specific anti-β1 integrin antibody, and PNEU with an anti-porcine neurofilament antibody, or an antibody recognizing the NeuN antigen. PAEC grafts were massively infiltrated within 24 h by OX42-positive cells, which may correspond to polymorphonuclear (PMN) cells or macrophages. At that moment, the graft contained numerous cells expressing the inducible isoform of NO-synthase (iNOS). Infiltration by ED1-positive macrophages was effective after three days. The β1-integrin labeling decreased from that time-point to day 7 post-implantation, and vanished after 11 days. Although some OX8-positive cells were present around the graft as soon as 3 days after transplantation, cells expressing the T-cell receptor (TCR)-β chain infiltrated the graft after 7 days and their number remained low. A strong, diffuse OX8-and ED1-positive immunoreactive material remained in the scar up to the third week. In striking contrast, PNEU grafts remained poorly infiltrated by OX42- or ED1-positive cells during the first two weeks. A massive infiltration by macrophages and TCRβ-positive lymphocytes occurred after 3 weeks. Natural killer (NK) cells were more scarce. The inflammation territory enlarged, and blood vessels were overloaded with macrophages or lymphocytes. Nevertheless, the graft contained NeuN-positive nuclei and neurites harbouring the porcine neurofilament protein. Hence, rejection was not completed at this time-point. These results suggest that the rapid rejection of PAEC is mainly driven by macrophages and possibly PMN cells, unlike PNEU, whose rejection is delayed and also involves lymphocytes. Differences in immunogenicity of grafted cells and/or patterns of production of pro-inflammatory cytokines may account for these contrasted rejection kinetics. [ABSTRACT FROM AUTHOR]

Published

2001