The Rpd3-like members of the class I lysine deacetylase family are important regulators of chromatin structure and gene expression and have pivotal functions in the control of proliferation, differentiation and development. The highly related class I deacetylases HDAC1 and HDAC2 have partially overlapping but also isoform-specific roles in diverse biological processes, whereas HDAC3 and HDAC8 have unique functions. This review describes the role of class I KDACs in the regulation of transcription as well as their non-transcriptional functions, in particular their contributions to splicing, mitosis/meiosis, replication and DNA repair. During the past years, a number of mouse loss-of-function studies provided new insights into the individual roles of class I deacetylases in cell cycle control, differentiation and tumorigenesis. Simultaneous ablation of HDAC1 and HDAC2 or single deletion of Hdac3 severely impairs cell cycle progression in all proliferating cell types indicating that these class I deacetylases are promising targets for small molecule inhibitors as anti-tumor drugs.
Molecular mechanisms that maintain lineage integrity of helper T cells are largely unknown. Here we show histone deacetylases (HDAC) 1 and 2 as crucial regulators of this process. Loss of HDAC1 and HDAC2 during late T cell development led to the appearance of MHC class II-selected CD4+ helper T cells (TH) that expressed CD8 lineage genes such as Cd8a and Cd8b1. HDAC1-HDAC2-deficient TH0 and TH1 cells further up-regulated Cd8 lineage genes and acquired a CD8 effector program in a manner dependent on Runx-CBFβ complexes, while TH2 cells repressed CD8 lineage features independently of HDAC1 and HDAC2. These results demonstrate that HDAC1-HDAC2 maintain CD4 lineage integrity by repressing Runx-CBFβ complexes that otherwise induce a CD8-like effector program in CD4+ T cells.
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