The transcription factor IRF-5 is essential for the metabolic rewiring of CD8 T cells during chronic infection

Abstract

AbstractNumerous transcription factors are involved in promoting an intricate gene expression program that leads to CD8 T cell exhaustion. Here, we found that the transcription factor IRF-5 is involved in limiting functional exhaustion of CD8 T cells by regulating the cell cycle and contributing to sustaining the mitochondrial functions and oxidative phosphorylation during the chronic stage of LCMV Cl13 infection. CD8 T cells lacking IRF-5 display reduced survival capacity and show increased signs of functional exhaustion during the chronic stage of infection. IRF-5-deficiency also resulted in a severely defective lipid metabolism, in a faulty mitochondrial envelope, and in the reduced capacity to produce ATP. Additionally, we observed increased lipid peroxidation in CD8 T cells lacking IRF-5, when compared with WT cells. These findings identify IRF-5 as a pivotal regulator of the metabolic rewiring that occurs in CD8 T cells during the chronic stages of infection and highlight its role in protecting cells from cell death, possibly by lipid peroxidation.SummaryIRF-5 is critical for regulating mitochondrial functions and oxidative phosphorylation in CD8 T cells during chronic stages of LCMV Cl13 infection.