Processing oxidatively damaged bases at DNA strand breaks by APE1

Amy M. Whitaker, Wesley J. Stark, Bret D. Freudenthal

Research output: Contribution to journalArticlepeer-review

13 Scopus citations

Abstract

Reactive oxygen species attack the structure of DNA, thus altering its base-pairing properties. Consequently, oxidative stress-associated DNA lesions are a major source of the mutation load that gives rise to cancer and other diseases. Base excision repair (BER) is the pathway primarily tasked with repairing DNA base damage, with apurinic/apyrimidinic endonuclease (APE1) having both AP-endonuclease and 3′ to 5′ exonuclease (exo) DNA cleavage functions. The lesion 8-oxo-7,8-dihydroguanine (8-oxoG) can enter the genome as either a product of direct damage to the DNA, or through polymerase insertion at the 3′-end of a DNA strand during replication or repair. Importantly, 3′-8-oxoG impairs the ligation step of BER and therefore must be removed by the exo activity of a surrogate enzyme to prevent double stranded breaks and cell death. In the present study, we use X-ray crystallography to characterize the exo activity of APE1 on 3′-8-oxoG substrates. These structures support a unified APE1 exo mechanism that differs from its more canonical AP-endonuclease activity. In addition, through complementation of the structural data with enzyme kinetics and binding studies employing both wild-type and rationally designed APE1 mutants, we were able to identify and characterize unique protein: DNA contacts that specifically mediate 8-oxoG removal by APE1.

Original languageEnglish
Pages (from-to)9521-9533
Number of pages13
JournalNucleic Acids Research
Volume50
Issue number16
DOIs
StatePublished - Sep 9 2022

Keywords

  • DNA Damage
  • DNA Repair/genetics
  • DNA-(Apurinic or Apyrimidinic Site) Lyase/metabolism
  • DNA/chemistry
  • Endonucleases/metabolism

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