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TitleBridging of DNA breaks activates PARP2-HPF1 to modify chromatin.
Journal, issue, pagesNature, Vol. 585, Issue 7826, Page 609-613, Year 2020
Publish dateSep 16, 2020
AuthorsSilvija Bilokapic / Marcin J Suskiewicz / Ivan Ahel / Mario Halic /
PubMed AbstractBreaks in DNA strands recruit the protein PARP1 and its paralogue PARP2 to modify histones and other substrates through the addition of mono- and poly(ADP-ribose) (PAR). In the DNA damage responses, ...Breaks in DNA strands recruit the protein PARP1 and its paralogue PARP2 to modify histones and other substrates through the addition of mono- and poly(ADP-ribose) (PAR). In the DNA damage responses, this post-translational modification occurs predominantly on serine residues and requires HPF1, an accessory factor that switches the amino acid specificity of PARP1 and PARP2 from aspartate or glutamate to serine. Poly(ADP) ribosylation (PARylation) is important for subsequent chromatin decompaction and provides an anchor for the recruitment of downstream signalling and repair factors to the sites of DNA breaks. Here, to understand the molecular mechanism by which PARP enzymes recognize DNA breaks within chromatin, we determined the cryo-electron-microscopic structure of human PARP2-HPF1 bound to a nucleosome. This showed that PARP2-HPF1 bridges two nucleosomes, with the broken DNA aligned in a position suitable for ligation, revealing the initial step in the repair of double-strand DNA breaks. The bridging induces structural changes in PARP2 that signal the recognition of a DNA break to the catalytic domain, which licenses HPF1 binding and PARP2 activation. Our data suggest that active PARP2 cycles through different conformational states to exchange NAD and substrate, which may enable PARP enzymes to act processively while bound to chromatin. The processes of PARP activation and the PARP catalytic cycle we describe can explain mechanisms of resistance to PARP inhibitors and will aid the development of better inhibitors as cancer treatments.
External linksNature / PubMed:32939087 / PubMed Central
MethodsEM (single particle)
Resolution2.2 - 10.0 Å
Structure data

EMDB-21970, PDB-6wz5:
Bridging of double-strand DNA break activates PARP2/HPF1 to modify chromatin
Method: EM (single particle) / Resolution: 2.2 Å

EMDB-21971, PDB-6wz9:
Bridging of double-strand DNA break activates PARP2/HPF1 to modify chromatin
Method: EM (single particle) / Resolution: 2.8 Å

EMDB-21978, PDB-6x0l:
Bridging of double-strand DNA break activates PARP2/HPF1 to modify chromatin
Method: EM (single particle) / Resolution: 3.9 Å

EMDB-21979, PDB-6x0m:
Bridging of double-strand DNA break activates PARP2/HPF1 to modify chromatin
Method: EM (single particle) / Resolution: 6.3 Å

EMDB-21980, PDB-6x0n:
Bridging of double-strand DNA break activates PARP2/HPF1 to modify chromatin
Method: EM (single particle) / Resolution: 10.0 Å

EMDB-21981:
PARP2/HPF1_Nucleosome complex
Method: EM (single particle) / Resolution: 6.6 Å

EMDB-21982:
PARP2/HPF1_Nucleosome complex
Method: EM (single particle) / Resolution: 6.3 Å

Source
  • xenopus laevis (African clawed frog)
  • synthetic construct (others)
  • homo sapiens (human)
  • African clawed frog (African clawed frog)
KeywordsGENE REGULATION / DNA repair / PARP1 / PARP2 / HPF1 / ADP-ribosylation / chromatin / histone modifications

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