Abstract
Histone deacetylases (HDACs) function in a wide range of molecular processes, including gene expression, and are of significant interest as therapeutic targets. Although their native complexes, subcellular localization, and recruitment mechanisms to chromatin have been extensively studied, much less is known about whether the enzymatic activity of non-sirtuin HDACs can be regulated by natural metabolites. Here, we show that several coenzyme A (CoA) derivatives, such as acetyl-CoA, butyryl-CoA, HMG-CoA, and malonyl-CoA, as well as NADPH but not NADP(+), NADH, or NAD(+), act as allosteric activators of recombinant HDAC1 and HDAC2 in vitro following a mixed activation kinetic. In contrast, free CoA, like unconjugated butyrate, inhibits HDAC activity in vitro. Analysis of a large number of engineered HDAC1 mutants suggests that the HDAC activity can potentially be decoupled from "activatability" by the CoA derivatives. In vivo, pharmacological inhibition of glucose-6-phosphate dehydrogenase (G6PD) to decrease NADPH levels led to significant increases in global levels of histone H3 and H4 acetylation. The similarity in structures of the identified metabolites and the exquisite selectivity of NADPH over NADP(+), NADH, and NAD(+) as an HDAC activator reveal a previously unrecognized biochemical feature of the HDAC proteins with important consequences for regulation of histone acetylation as well as the development of more specific and potent HDAC inhibitors.
Highlights
Little is known about potential regulation of non-sirtuin Histone deacetylases (HDACs) by cellular metabolites
In Vitro HDAC Activity Is Regulated Directly by Specific Cellular Metabolites—Because histone acetylation requires acetylCoA and deacetylation releases acetate anions, we asked if metabolites of pathways that generate or consume two-carbon units directly regulate the activities of class I HDACs
To assay HDAC activity, 25–50 nM recombinant HDAC1 or HDAC2 were used in absence or presence of 1 mM of each metabolite shown in Fig. 1A using 50 M 3H-labeled HeLa histones as substrate
Summary
Little is known about potential regulation of non-sirtuin HDACs by cellular metabolites. Results: HDAC activity is stimulated by conjugated CoA derivatives and NADPH and is inhibited by free CoA. Histone deacetylases (HDACs) function in a wide range of molecular processes, including gene expression, and are of significant interest as therapeutic targets. Their native complexes, subcellular localization, and recruitment mechanisms to chromatin have been extensively studied, much less is known about whether the enzymatic activity of non-sirtuin HDACs can be regulated by natural metabolites. The similarity in structures of the identified metabolites and the exquisite selectivity of NADPH over NADP؉, NADH, and NAD؉ as an HDAC activator reveal a previously unrecognized biochemical feature of the HDAC proteins with important consequences for regulation of histone acetylation as well as the development of more specific and potent HDAC inhibitors
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