HDAC1 controls the generation and maintenance of effector-like CD8+T cells during chronic viral infection

Abstract

AbstractCD8+T cell exhaustion is a complex process that involves the differentiation of persistently activated CD8+T cells into functionally distinct cell subsets. Here, we investigated the role of the key epigenetic regulator histone deacetylase 1 (HDAC1) in the differentiation of exhausted T (Tex) cells during chronic viral infection. We uncovered that HDAC1 controls the generation and maintenance of effector-like CX3CR1+Tex cells in a CD8+T cell-intrinsic manner. Deletion of HDAC1 led to expansion of an alternative Tex cell subset characterized by high expression of T cell exhaustion markers, and this was accompanied by elevated viremia. HDAC1 knockout altered the chromatin landscape in progenitor Tex cells, abrogated the expression of effector-like signature genes and interfered with cell fate specification toward the CX3CR1+Tex cell subset. We conclude that HDAC1 is functionally required for controlling viral load during chronic infection by ensuring adequate CX3CR1+Tex cell subset differentiation.HighlightsHDAC1 promotes the generation of CX3CR1+effector-like Tex cell subsets in chronic viral infection in a CD8+T cell-intrinsic manner.Deletion of HDAC1 leads to an increase of a cell subset enriched in exhaustion markers and is accompanied with elevated viremia.HDAC1 is required for the maintenance of the CX3CR1+Tex cell pool.HDAC1 deletion alters the chromatin landscape at effector-like signature gene loci in progenitor Tex cells.