Gut inflammation promotes microbiota-specific CD4 T cell-mediated neuroinflammation

Abstract

The microbiota has been recognized as a critical contributor to various diseases1, with multiple reports of changes in the composition of the gut microbiome in contexts such as inflammatory bowel disease2,3 and neurodegenerative diseases4. These microbial shifts can exert systemic effects by altering the release of specific metabolites into the bloodstream5,6, and the gastrointestinal microbiota has also been reported to exhibit immunomodulatory activity through the activation of innate and adaptive immunity7,8. However, it remains unclear how the microbiota contributes to inflammation in the central nervous system (CNS), where these microorganisms are typically absent. Here we report that T cells that recognize gut-colonizing segmented filamentous bacteria can induce inflammation in the mouse intestine and CNS in the absence of functional regulatory T cells. Gut commensal-specific CD4 T cells (Tcomm cells) that are dysregulated in the inflamed gut can become licensed to infiltrate into the CNS regardless of their antigen specificity and have the potential to be re-stimulated by host protein-derived antigens in the CNS via molecular mimicry, whereupon they produce high levels of GM-CSF, IFNγ and IL-17A, triggering neurological damage. These infiltrated Tcomm cells initiate CNS inflammation by activating microglia through their IL-23R-dependent encephalitogenic programme and their IL-23R-independent GM-CSF production. Together, our findings reveal potential mechanisms whereby perturbation of Tcomm cells can contribute to extraintestinal inflammation. Dysregulated CD4 T cells that recognize gut commensal antigens are able to infiltrate the central nervous systems and are re-stimulated by host proteins, resulting in neuroinflammation.