Function and molecular mechanisms of APE2 in genome and epigenome integrity

•Distinct functional domains of APE2 from eight species.•Various DNA substrates and enzymatic activities of APE2.•APE2 interaction proteins and phenotypes of APE2 mutants.•Functions of APE2 in DNA repair, DNA damage response, and DNA demethylation.•Biological significance of APE2 in growth, developm...

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Published in:Mutation research. Reviews in mutation research 2021-01, Vol.787, p.108347-108347, Article 108347
Main Authors: Lin, Yunfeng, McMahon, Anne, Driscoll, Garrett, Bullock, Sharon, Zhao, Jianjun, Yan, Shan
Format: Article
Language:English
Subjects:
Animals
APE2
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
ATR-Chk1 pathway
DNA Damage - genetics
DNA Damage - physiology
DNA Demethylation
DNA repair
DNA Repair - genetics
DNA Repair - physiology
Endonucleases - genetics
Epigenome - genetics
Genome and epigenome integrity
Humans
Immune response
Immunity - genetics
Immunity - physiology
Rad51 Recombinase - genetics
Rad51 Recombinase - metabolism
Saccharomyces cerevisiae - genetics
Saccharomyces cerevisiae - metabolism
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Summary:•Distinct functional domains of APE2 from eight species.•Various DNA substrates and enzymatic activities of APE2.•APE2 interaction proteins and phenotypes of APE2 mutants.•Functions of APE2 in DNA repair, DNA damage response, and DNA demethylation.•Biological significance of APE2 in growth, development, and diseases. APE2 is a rising vital player in the maintenance of genome and epigenome integrity. In the past several years, a series of studies have shown the critical roles and functions of APE2. We seek to provide the first comprehensive review on several aspects of APE2 in genome and epigenome integrity. We first summarize the distinct functional domains or motifs within APE2 including EEP (endonuclease/exonuclease/phosphatase) domain, PIP box and Zf-GRF motifs from eight species (i.e., Homo sapiens, Mus musculus, Xenopus laevis, Ciona intestinalis, Arabidopsis thaliana, Schizosaccharomyces pombe, Saccharomyces cerevisiae, and Trypanosoma cruzi). Then we analyze various APE2 nuclease activities and associated DNA substrates, including AP endonuclease, 3′-phosphodiesterase, 3′-phosphatase, and 3′-5′ exonuclease activities. We also examine several APE2 interaction proteins, including PCNA, Chk1, APE1, Myh1, and homologous recombination (HR) factors such as Rad51, Rad52, BRCA1, BRCA2, and BARD1. Furthermore, we provide insights into the roles of APE2 in various DNA repair pathways (base excision repair, single-strand break repair, and double-strand break repair), DNA damage response (DDR) pathways (ATR-Chk1 and p53-dependent), immunoglobulin class switch recombination and somatic hypermutation, as well as active DNA demethylation. Lastly, we summarize critical functions of APE2 in growth, development, and diseases. In this review, we provide the first comprehensive perspective which dissects all aspects of the multiple-function protein APE2 in genome and epigenome integrity.
ISSN:1383-5742
1388-2139
DOI:10.1016/j.mrrev.2020.108347