Gut regulatory T cells mediate immunological tolerance inSalmonella-infected superspreader hosts by suppressing cytotoxic activity of T cells

Superspreader hosts carry out most pathogen transmission events and are often disease tolerant since they remain asymptomatic despite high pathogen burdens. Here we describe the superspreader immune state that allows for disease tolerance. In a model ofSalmonellainfection, superspreader mice develop colitis with robust CD4+and CD8+T-cell responses, however, they remain asymptomatic. We found that superspreaders have significantly more regulatory T cells (Tregs) in the distal gut compared to non-superspreader infected hosts. Surprisingly, the depletion of Tregs did not induce pathogen clearance but rather exacerbated weight loss, increased gut inflammation, and compromised epithelial intestinal barrier. This loss of tolerance correlated with dramatic increases in cytotoxic CD4+and CD8+T cells. Interestingly, CD4 neutralization in Tregs-depleted superspreaders was sufficient to rescue tolerance. Our results indicate that Tregs play a crucial role in maintaining immunologic tolerance in the guts of superspreader mice by suppressing cytotoxic CD4+and CD8+T-cell activities.AUTHOR SUMMARYSuperspreader hosts are the main cause of disease transmission and a very important public health concern. Here, we evaluated the immunological tolerance of theSalmonellainfected superspreaders in a mouse model. By manipulating Tregs, we demonstrated the immunological mechanism from the host to maintain health status and high pathogen burden. Tregs depletion in the superspreaders led to severe disease, with damage of the intestinal epithelia, and high morbidity without having any effect on shedding and systemicSalmonellaburden. Furthermore, we demonstrated that the damage of the intestinal epithelia was related to cytotoxic activity of T cells. When Tregs were depleted, CD8+T cells produced high levels of granzyme B and perforin. CD8+T cells neutralization in Tregs depleted mice led to increased cytotoxic CD4+T cells. Interestingly, neutralization of CD4+T cells in the Tregs depleted mice led to a reduction in the CD8+T cells producing granzyme B and it was sufficient to rescue host tolerance in this model. We demonstrate for the first time that cytotoxic CD4+T cells damage the epithelial intestinal barrier and contribute to loss of tolerance in the context of a superspreader host. These findings open new perspectives to understand mechanisms of tolerance in the intestine of a superspreader host.