3vuz

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Crystal structure of histone methyltransferase SET7/9 in complex with AAM-1

Structural highlights

3vuz is a 1 chain structure with sequence from Homo sapiens. Full crystallographic information is available from OCA. For a guided tour on the structure components use FirstGlance.
Method:X-ray diffraction, Resolution 2.5Å
Ligands:K15
Resources:FirstGlance, OCA, PDBe, RCSB, PDBsum, ProSAT

Function

SETD7_HUMAN Histone methyltransferase that specifically monomethylates 'Lys-4' of histone H3. H3 'Lys-4' methylation represents a specific tag for epigenetic transcriptional activation. Plays a central role in the transcriptional activation of genes such as collagenase or insulin. Recruited by IPF1/PDX-1 to the insulin promoter, leading to activate transcription. Has also methyltransferase activity toward non-histone proteins such as p53/TP53, TAF10, and possibly TAF7 by recognizing and binding the [KR]-[STA]-K in substrate proteins. Monomethylates 'Lys-189' of TAF10, leading to increase the affinity of TAF10 for RNA polymerase II. Monomethylates 'Lys-372' of p53/TP53, stabilizing p53/TP53 and increasing p53/TP53-mediated transcriptional activation.[1] [2] [3] [4] [5] [6]

Publication Abstract from PubMed

SET7/9 is a protein lysine methyltransferase that methylates histone H3 and nonhistone proteins such as p53, TAF10 and oestrogen receptor alpha. In previous work, novel inhibitors of SET7/9 that are amine analogues of the coenzyme S-(5'-adenosyl)-L-methionine (AdoMet) have been developed. Here, crystal structures of SET7/9 are reported in complexes with two AdoMet analogues, designated DAAM-3 and AAM-1, in which an n-hexylaminoethyl group or an n-hexyl group is attached to the N atom that replaces the S atom of AdoMet, respectively. In both structures, the inhibitors bind to the coenzyme-binding site and their additional alkyl chain binds in the lysine-access channel. The N atom in the azaalkyl chain of DAAM-3 is located at almost the same position as the N-methyl C atom of the methylated lysine side chain in the substrate-peptide complex structures and stabilizes complex formation by hydrogen bonding to the substrate-binding site residues of SET7/9. On the other hand, the alkyl chain of AAM-1, which is a weaker inhibitor than DAAM-3, binds in the lysine-access channel only through hydrophobic and van der Waals interactions. Unexpectedly, the substrate-binding site of SET7/9 complexed with AAM-1 specifically interacts with the artificial N-terminal sequence of an adjacent symmetry-related molecule, presumably stabilizing the alkyl chain of AAM-1.

Structures of histone methyltransferase SET7/9 in complexes with adenosylmethionine derivatives.,Niwa H, Handa N, Tomabechi Y, Honda K, Toyama M, Ohsawa N, Shirouzu M, Kagechika H, Hirano T, Umehara T, Yokoyama S Acta Crystallogr D Biol Crystallogr. 2013 Apr;69(Pt 4):595-602. doi:, 10.1107/S0907444912052092. Epub 2013 Mar 14. PMID:23519668[7]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.

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Citations
4 reviews cite this structure
Histone methyltransferases: novel targets for tumor and developmental defects.
Yi et al. (2015)
3 more
5 other articles
No citations found

See Also

References

  1. Martens JH, Verlaan M, Kalkhoven E, Zantema A. Cascade of distinct histone modifications during collagenase gene activation. Mol Cell Biol. 2003 Mar;23(5):1808-16. PMID:12588998
  2. Kouskouti A, Scheer E, Staub A, Tora L, Talianidis I. Gene-specific modulation of TAF10 function by SET9-mediated methylation. Mol Cell. 2004 Apr 23;14(2):175-82. PMID:15099517
  3. Francis J, Chakrabarti SK, Garmey JC, Mirmira RG. Pdx-1 links histone H3-Lys-4 methylation to RNA polymerase II elongation during activation of insulin transcription. J Biol Chem. 2005 Oct 28;280(43):36244-53. Epub 2005 Sep 1. PMID:16141209 doi:M505741200
  4. Huang J, Perez-Burgos L, Placek BJ, Sengupta R, Richter M, Dorsey JA, Kubicek S, Opravil S, Jenuwein T, Berger SL. Repression of p53 activity by Smyd2-mediated methylation. Nature. 2006 Nov 30;444(7119):629-32. Epub 2006 Nov 15. PMID:17108971 doi:10.1038/nature05287
  5. Xiao B, Jing C, Wilson JR, Walker PA, Vasisht N, Kelly G, Howell S, Taylor IA, Blackburn GM, Gamblin SJ. Structure and catalytic mechanism of the human histone methyltransferase SET7/9. Nature. 2003 Feb 6;421(6923):652-6. Epub 2003 Jan 22. PMID:12540855 doi:10.1038/nature01378
  6. Chuikov S, Kurash JK, Wilson JR, Xiao B, Justin N, Ivanov GS, McKinney K, Tempst P, Prives C, Gamblin SJ, Barlev NA, Reinberg D. Regulation of p53 activity through lysine methylation. Nature. 2004 Nov 18;432(7015):353-60. Epub 2004 Nov 3. PMID:15525938 doi:10.1038/nature03117
  7. Niwa H, Handa N, Tomabechi Y, Honda K, Toyama M, Ohsawa N, Shirouzu M, Kagechika H, Hirano T, Umehara T, Yokoyama S. Structures of histone methyltransferase SET7/9 in complexes with adenosylmethionine derivatives. Acta Crystallogr D Biol Crystallogr. 2013 Apr;69(Pt 4):595-602. doi:, 10.1107/S0907444912052092. Epub 2013 Mar 14. PMID:23519668 doi:http://dx.doi.org/10.1107/S0907444912052092

Contents


PDB ID 3vuz

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