Glutamine metabolism is essential for the production of IL-17A in γδ T cells and skin inflammation.

γδ T cell is one of the most important pathogenic immune cells in autoimmunity, especially in mucosal and epithelial diseases. Metabolism is essential for the maintenance of immune homeostasis. However, unlike αβ T cells, the metabolic regulation of γδ T cell activation still remain unclear. Here, we identified glutamine metabolism as a critical regulator for the generation of IL-17-producing γδ T cells. Metabolic screening uncovered that amino acids related to glutamine metabolism increased most obviously during γδ T cell activation. Pharmaceutical blocking of glutamine impaired IL-17 production in γδ T cells both in vitro and in vivo. Mechanism studies further revealed that genes downregulated upon glutamine deprivation enriched in IL-17 and IL-23/STAT3 signaling pathways. Consistent with this, the activation of STAT3 was suppressed after glutamine blocking. More importantly, application of glutamine antagonist in vivo alleviated the progression of IL-23 induced psoriatic mice model. In addition, both the glutamine level and the expression of glutamine related enzymes were found higher in psoriasis patients when compared with healthy controls. Therefore, our work identified an important metabolic regulatory pathway in γδ T cell activation and suggested that glutamine metabolism could be used as a target for the treatment of γδ T cell related diseases.