Structural basis for histone and phosphohistone binding by the GCN5 histone acetyltransferase.

Clements A; Poux AN; Lo WS; Pillus L; Berger SL; Marmorstein R

doi:10.1016/s1097-2765(03)00288-0

Abstract

Distinct posttranslational modifications on histones occur in specific patterns to mediate certain chromosomal events. For example, on histone H3, phosphorylation at Ser10 can enhance GCN5-mediated Lys14 acetylation to promote transcription. To gain insight into the mechanism underlying this synergism, we determined the structure of Tetrahymena GCN5 (tGCN5) and coenzyme A (CoA) bound to unmodified and Ser10-phosphorylated 19 residue histone H3 peptides (H3p19 and H3p19Pi, respectively). The tGCN5/CoA/H3p19 structure reveals that a 12 amino acid core sequence mediates extensive contacts with the protein, providing the structural basis for substrate specificity by the GCN5/PCAF family of histone acetyltransferases. Comparison with the tGCN5/CoA/H3p19Pi structure reveals that phospho-Ser10 and Thr11 mediate significant histone-protein interactions, and nucleate additional interactions distal to the phosphorylation site. Functional studies show that histone H3 Thr11 is necessary for optimal transcription at yGcn5-dependent promoters requiring Ser10 phosphorylation. Together, these studies reveal how one histone modification can modulate another to affect distinct transcriptional signals.

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Proteins in UniProt (3)

Histone H3(UniProt - P61830)
Histone H3(UniProt - P69150)
Histone acetyltransferase GCN5(UniProt - Q27198)

Protein structures in PDBe (3)

crystal structure of tetrahymena gcn5 with bound coenzyme a and a 19-residue histone h3 peptide(PDB - 1pu9)
View structure
crystal structure of tetrahymena gcn5 with bound coenzyme a and a phosphorylated, 19-residue histone h3 peptide(PDB - 1pua)
View structure
crystal structure of tetrahymena gcn5 with bound coenzyme a and a 19-residue histone h4 peptide(PDB - 1q2c)
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Funders who supported this work.

NIGMS NIH HHS (1)

Grant ID: R01 GM060293
60 publications

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Structural basis for histone and phosphohistone binding by the GCN5 histone acetyltransferase.

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References

Reversible histone modifications and the chromosome cell cycle.

Crystallography & NMR system: A new software suite for macromolecular structure determination.

Synergistic coupling of histone H3 phosphorylation and acetylation in response to epidermal growth factor stimulation.

Phosphoacetylation of histone H3 on c-fos- and c-jun-associated nucleosomes upon gene activation.

Mitotic phosphorylation of histone H3: spatio-temporal regulation by mammalian Aurora kinases.

Core histone N-termini play an essential role in mitotic chromosome condensation.

The N-terminus of histone H2B, but not that of histone H3 or its phosphorylation, is essential for chromosome condensation.

Structure of the histone acetyltransferase Hat1: a paradigm for the GCN5-related N-acetyltransferase superfamily.

Interactions of transcriptional regulators with histones.

Yeast Gcn5 functions in two multisubunit complexes to acetylate nucleosomal histones: characterization of an Ada complex and the SAGA (Spt/Ada) complex.

Citations & impact

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Article citations

How life events may confer vulnerability to addiction: the role of epigenetics.

Collaborators or competitors: the communication between RNA polymerase II and the nucleosome during eukaryotic transcription.

Histone mutations in cancer.

Epigenetic Aspects and Prospects in Autoimmune Hepatitis.

Localization Matters: Epigenetic Regulation of Natural Killer Cells in Different Tissue Microenvironments.

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Structural basis for histone and phosphohistone binding by the GCN5 histone acetyltransferase.

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