Abstract
Treatment of HeLa cells with the DNA damaging agent, bleomycin (BLM), results in the formation of a nonenzymatic 5-methylene-2-pyrrolone histone covalent modification on lysine residues (KMP). KMP is much more electrophilic than other N-acyllysine covalent modifications and post-translational modifications, including N-acetyllysine (KAc). Using histone peptides containing KMP, we show that this modification inhibits the class I histone deacetylase, HDAC1, by reacting with a conserved cysteine (C261) located near the active site. HDAC1 is inhibited by histone peptides whose corresponding N-acetylated sequences are known deacetylation substrates, but not one containing a scrambled sequence. The HDAC1 inhibitor, trichostatin A, competes with covalent modification by the KMP-containing peptides. HDAC1 is also covalently modified by a KMP-containing peptide in a complex milieu. These data indicate that peptides containing KMP are recognized by HDAC1 and are bound in the active site. The effects on HDAC1 indicate that KMP formation in cells may contribute to the biological effects of DNA damaging agents, such as BLM, that form this nonenzymatic covalent modification.
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