CARD9 in neutrophils protects from colitis and controls mitochondrial metabolism and cell survival (Équipe XXXX)

27 - Septembre - 2022

Camille Danne, Chloé Michaudel, Jurate Skerniskyte, Julien Planchais, Magniez, Aurélie Allison Agus, Marie-Laure Michel, Bruno Lamas, Gregory Da Costa, Madeleine Spatz, Cyriane Oeuvray, Chloé Galbert, Maxime Poirier, Yazhou Wang, Alexia Lapiere, Nathalie Rolhion, Tatiana Ledent, Cédric Pionneau, Solenne Chardonnet, Floriant Bellvert, Edern Cahoreau, Amandine Rocher, Rafael Rose Arguello, Carole Peyssonnaux, Sabine Louis, Mathias L. Richard, Philippe Langella, Jamel El-Benna, Benoit Marteyn, Har

Gut. 2022

OBJECTIVES: Inflammatory bowel disease (IBD) results from a combination of genetic predisposition, dysbiosis of the gut microbiota and environmental factors, leading to alterations in the gastrointestinal immune response and chronic inflammation. Caspase recruitment domain 9 (Card9), one of the IBD susceptibility genes, has been shown to protect against intestinal inflammation and fungal infection. However, the cell types and mechanisms involved in the CARD9 protective role against inflammation remain unknown.

DESIGN: We used dextran sulfate sodium (DSS)-induced and adoptive transfer colitis models in total and conditional CARD9 knock-out mice to uncover which cell types play a role in the CARD9 protective phenotype. The impact of Card9 deletion on neutrophil function was assessed by an in vivo model of fungal infection and various functional assays, including endpoint dilution assay, apoptosis assay by flow cytometry, proteomics and real-time bioenergetic profile analysis (Seahorse).

RESULTS: Lymphocytes are not intrinsically involved in the CARD9 protective role against colitis. CARD9 expression in neutrophils, but not in epithelial or CD11c+cells, protects against DSS-induced colitis. In the absence of CARD9, mitochondrial dysfunction increases mitochondrial reactive oxygen species production leading to the premature death of neutrophilsthrough apoptosis, especially in oxidative environment. The decreased functional neutrophils in tissues might explain the impaired containment of fungi and increased susceptibility to intestinal inflammation.

CONCLUSION: These results provide new insight into the role of CARD9 in neutrophil mitochondrial function and its involvement in intestinal inflammation, paving the way for new therapeutic strategies targeting neutrophils.

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