Tissue-resident memory Th17 cells maintain stable fungal commensalism in the oral mucosa.

Keeping a stable equilibrium between the host and commensal microbes to which we are constantly exposed, poses a major challenge for the immune system. The host mechanisms that regulate homeostasis of the microbiota to prevent infection and inflammatory disorders are not fully understood. Here, we provide evidence that CD4 tissue-resident memory T (T) cells act as central players in this process. Using a murine model of C. albicans commensalism we show that IL-17 producing CD69CD103CD4 memory T cells persist in the colonized tissue long-term and independently of circulatory supplies. Consistent with the requirement of Th17 cells for limiting fungal growth, IL-17-producing T cells in the mucosa were sufficient to maintain prolonged colonization, while circulatory T cells were dispensable. Although T cells were first proposed to protect from pathogens causing recurrent acute infections, our results support a central function of T cells in the maintenance of commensalism.