Class IIa HDACs - New insights into their functions in physiology and pathology

Abstract

HDAC4, 5, 7 and 9 constitute the class IIa histone deacetylases (HDACs) within the large family of protein deacetylases. Class IIa HDACs have unique features that distinguish them from other HDACs. They contain an N-terminal domain that is required for their interaction with tissue-specific transcription factors and recruitment to their target genes. The N-terminal domain on class IIa HDACs also bears conserved serine residues that undergo signal-dependent phosphorylation, which brings about nuclear export of the enzymes and de-repression of their targets. One of the most important aspects of class IIa HDACs is their expression in specific tissues and organs within the organism, where they have crucial roles in development and differentiation processes. This review brings up to date our knowledge of the physiological and pathological functions of class IIa HDACs, focusing in particular on the most recent discoveries from in vivo studies of mouse model systems. Class IIa HDACs are transcriptional repressors expressed in specific tissues and organs within the organism, where they have crucial roles in development and differentiation processes. Here, I bring up to date our knowledge of their physiological and pathological functions, focusing in particular on the most recent discoveries from in vivo studies of mouse model systems.