Dietary L-Tryptophan consumption determines the number of colonic regulatory T cells and susceptibility to colitis via GPR15

Environmental factors are the major contributor to the onset of immunological disorders such as ulcerative colitis. However, their identities remain unclear. Here, we discover that the amount of consumed L-Tryptophan (L-Trp), a ubiquitous dietary component, determines the transcription level of the colonic T cell homing receptor, GPR15, hence affecting the number of colonic FOXP3+ regulatory T (Treg) cells and local immune homeostasis. Ingested L-Trp is converted by host IDO1/2 enzymes, but not by gut microbiota, to compounds that induce GPR15 transcription preferentially in Treg cells via the aryl hydrocarbon receptor. Consequently, two weeks of dietary L-Trp supplementation nearly double the colonic GPR15+ Treg cells via GPR15-mediated homing and substantially reduce the future risk of colitis. In addition, humans consume 3-4 times less L-Trp per kilogram of body weight and have fewer colonic GPR15+ Treg cells than mice. Thus, we uncover a microbiota-independent mechanism linking dietary L-Trp and colonic Treg cells, that may have therapeutic potential. Environmental factors such as diet have been shown to be involved with the development of colitis. Here the authors show that L-tryptophan promotes the development of GPR15+ Treg cells via the host IDO1/2 pathway and that tryptophan consumption in mice reduces severity of colitis in a C. rodentium mouse model.

Automated summary

Environmental factors, such as diet, can contribute to the development of colitis. This study demonstrates that dietary L-tryptophan promotes the development of GPR15+ Treg cells via the host IDO1/2 pathway and that tryptophan consumption in mice reduces the severity of colitis.