Abstract
Mechanisms leading to gut homeostasis affect both mucosal and systemic immune function, and involve gut microbiota. Tolerogenic dendritic cells (CD103DC) play a role in gut homeostasis, including generation of induced regulatory T cells (iTregs). Previously, we found that treatment of male BWF1 mice with anti-CD103 antibody significantly increases disease incidence/mortality. Male CD103DC exhibit significantly greater tolerogenic function than either female or castrated male CD103DC in vitro. This study examines the mechanism of sex differences in CD103DC function, and the role of microbiota in lupus. Sex differences in CD103DC function correlated with increased expression of genes associated with tolerogenic/anti-inflammatory function in males, and pro-inflammatory function in females, and changes in iTreg frequency and function in vivo. Male BWF1 CD103DC expressed more Raldh2, an enzyme required for retinoic acid (RA) synthesis and CD103DC function, and supplementation with RA restored tolerogenic function in female CD103DC. Further, we found that male gut microbiota differed significantly from adult, but not immature, female microbiota, suggesting hormones influence the gut microbiota. Importantly, transfer of male gut microbiota to female BWF1 mice significantly reduced anti-dsDNA antibody production. These data suggest that an interplay between hormones, gut microbiota and tolerogenic CD103DC may play a critical role in providing protection to male BWF1 mice.
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