Abstract
The reversible acetylation of histones is associated with structural alterations in the chromatin fiber that affect various DNA-related activities. Here we show that the histone acetyltransferase p300 specifically acetylates HMG-14, a nonhistone structural protein that binds to nucleosomes and reduces the compactness of the chromatin fiber. We identify 7 major acetylation sites, 6 of which are novel and have not been known to be acetylated in either HMG-14 or the closely related HMG-17 protein. All the acetylation sites involve evolutionarily conserved residues: 3 within the HMG-14/-17 nucleosomal binding domain and 4 in or near the bipartite nuclear localization domains of the proteins. In tissue culture cells the acetylation pattern is indicative of a selective process in which a subfraction of HMG-14 is preferentially acetylated. We find that the nucleosomal binding domain is a major target for acetylation in vivo and that the specific acetylation of HMG-14 by p300 weakens its interaction with nucleosome cores. Our results suggest that p300 modulates the interaction of HMG-14 with nucleosomes. Thus, p300 may affect chromatin-related activities not only by modifying histones or transcription factors but also by targeting structural nonhistone proteins.
Highlights
The reversible acetylation of histones is associated with structural alterations in the chromatin fiber that affect various DNA-related activities
It is generally accepted that the acetylation of specific lysine residues in the histone tails leads to chromatin decompaction [10, 11], thereby reducing the repressive effect of chromatin on transcription and replication as well as other DNA-related activities
Our finding that PCAF acetylates Lys 2 in HMG-17 but does not acetylate the closely related HMG-14 [21] suggests that in a fashion analogous to the acetylation of the histone tails, the acetylation of HMG-14/-17 is targeted and specific; that is, specific lysine residues are differentially acetylated by specific acetylases
Summary
Vol 275, No 15, Issue of April 14, pp. 11514 –11520, 2000 Printed in U.S.A. Acetylation of Novel Sites in the Nucleosomal Binding Domain of Chromosomal Protein HMG-14 by p300 Alters Its Interaction with Nucleosomes*. P300 may affect chromatin-related activities by modifying histones or transcription factors and by targeting structural nonhistone proteins. PCAF acetylates lysine 2 in the nonhistone HMG-17, a modification that alters the interaction of the protein with the nucleosome core. The most prominent acetylation sites are located in the nucleosomal binding domain of the protein, suggesting that acetylation may alter the interaction of HMG-14 with chromatin. Additional prominent acetylation sites are located in the bipartite nuclear localization signal of the protein [25], raising the possibility that these modifications may affect the intranuclear distribution of HMG-14/-17 proteins Taken together, these results suggest that the p300 acetylation may affect the cellular function of HMG-14/-17 proteins
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