Loss of 15-lipoxygenase disrupts T(reg) differentiation altering their pro-resolving functions

Regulatory T-cells (T(regs)) are central in the maintenance of homeostasis and resolution of inflammation. However, the mechanisms that govern their differentiation and function are not completely understood. Herein, we demonstrate a central role for the lipid mediator biosynthetic enzyme 15-lipoxygenase (ALOX15) in regulating key aspects of T(reg) biology. Pharmacological inhibition or genetic deletion of ALOX15 in T(regs) decreased FOXP3 expression, altered T(reg) transcriptional profile and shifted their metabolism. This was linked with an impaired ability of Alox15-deficient cells to exert their pro-resolving actions, including a decrease in their ability to upregulate macrophage efferocytosis and a downregulation of interferon gamma expression in Th1 cells. Incubation of T(regs) with the ALOX15-derived specilized pro-resolving mediators (SPM)s Resolvin (Rv)D3 and RvD5(n-3 DPA) rescued FOXP3 expression in cells where ALOX15 activity was inhibited. In vivo, deletion of Alox15 led to increased vascular lipid load and expansion of Th1 cells in mice fed western diet, a phenomenon that was reversed when Alox15-deficient mice were reconstituted with wild type T(regs). Taken together these findings demonstrate a central role of pro-resolving lipid mediators in governing the differentiation of naive T-cells to T(regs).