IL‐38 prevents induction of trained immunity by inhibition of mTOR signaling

Trained immunity is the acquisition of a hyperresponsive phenotype by innate immune cells (such as monocytes and macrophages) after an infection or vaccination, a de facto nonspecific memory dependent on epigenetic and metabolic reprogramming of these cells. We have recently shown that induction of trained immunity is dependent on IL‐1β. Here, we show that recombinant IL‐38, an anti‐inflammatory cytokine of the IL‐1‐family, was able to induce long‐term inhibitory changes and reduce the induction of trained immunity by β‐glucan in vivo in C57BL/6 mice and ex vivo in their bone marrow cells. IL‐38 blocked mTOR signaling and prevented the epigenetic and metabolic changes induced by β‐glucan. In healthy subjects, the IL1F10 associated single nucleotide polymorphism rs58965312 correlated with higher plasma IL‐38 concentrations and reduced induction of trained immunity by β‐glucan ex vivo. These results indicate that IL‐38 induces long‐term anti‐inflammatory changes and also inhibits the induction of trained immunity. Recombinant IL‐38 could therefore potentially be used as a therapeutic intervention for diseases characterized by exacerbated trained immunity.