Yng2p-dependent NuA4 Histone H4 Acetylation Activity Is Required for Mitotic and Meiotic Progression

Abstract In all eukaryotes, multisubunit histone acetyltransferase (HAT) complexes acetylate the highly conserved lysine residues in the amino-terminal tails of core histones to regulate chromatin structure and gene expression. One such complex in yeast, NuA4, specifically acetylates nucleosome-associated histone H4. Recent studies have revealed that NuA4 comprises at least 11 subunits, including Yng2p, a yeast homolog of the candidate human tumor suppressor gene, ING1. Consistent with prior data, we find that cells lacking Yng2p are deficient for NuA4 activity and are temperature-sensitive. Furthermore, we show that the NuA4 complex is present in the absence of Yng2p, suggesting that Yng2p functions to maintain or activate NuA4 HAT activity. Sporulation of diploidyng2 mutant cells reveals a defect in meiotic progression, whereas synchronized yng2 mutant cells display a mitotic delay. Surprisingly, genome-wide expression analysis revealed little change from wild type. Nocodazole arrest and release relieves the mitotic defects, suggesting that Yng2p may have a critical function prior to or during metaphase. Rather than a uniform decrease in acetylated forms of histone H4, we find striking cell-to-cell heterogeneity in the loss of acetylated histone H4 in yng2mutant cells. Treating yng2 mutants with the histone deacetylase inhibitor trichostatin A suppressed the mitotic delay and restored global histone H4 acetylation, arguing that reduced H4 acetylation may underlie the cell cycle delay.