Relationship between Core Histone Acetylation and Histone H10 Gene Activity

Abstract

In this study we show a striking correlation between histone H1⁰ gene expression and histone acetylation. Trichostatin A, a highly specific inhibitor of histone deacetylase, efficiently induces H1⁰ gene expression. Moreover, using a cell line sensitive to trichostatin A (FM3A) and a derived cell line selected for its resistance to this inhibitor (TR303), it is shown that the level of H1⁰ gene expression is related to the extent of chromatin acetylation. After showing the S‐phase‐dependent activation of H1⁰ gene expression, we demonstrate that hyperacetylation has a dominant effect on H1⁰ gene expression, since it enhances the expression of the gene independent of the position of cells in the cell cycle. This response to deacetylase inhibitors is specific to H1⁰, since it is not shared by other cell‐cycle‐dependent histone genes (H1 and H4). Finally, by transfection of trichostatin‐A‐resistant and trichostatin‐A‐sensitive cells with a plasmid containing a H1⁰ promoter, we show that the exogenous H1⁰ promoter is also highly sensitive to trichostatin A treatment and that activation of transcription follows exactly the same pattern as activation of the endogenous gene. These data show that histone acetylation may be used to modulate H1⁰ gene activity and offers insight into a possible mechanism in which the developmentally regulated chromatin acetylation acts to potentiate H1⁰ gene expression.