EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Escherichia coli AP endonuclease (ExoIII) and its human homolog (APE1) have the sole tryptophan residue for AP site recognition (AP site recognizer) but these residues are at different positions near the catalytic sites. On the other hand, many bacterial AP endonucleases have two tryptophan residues at the same positions of both ExoIII and APE1. To elucidate whether these residues are involved in AP site recognition, the ExoIII homologs of Thermoplasma volcanium and Lactobacillus plantarum were characterized. These proteins showed AP endonuclease and 3'-5'exonculease activities. In each enzyme, the mutations of the tryptophan residues corresponding to Trp-280 of APE1 caused more significant reductions in activities and binding abilities to the oligonucleotide containing an AP site (AP-DNA) than those corresponding to Trp-212 of ExoIII. These results suggest that the tryptophan residue corresponding to Trp-280 of APE1 is the predominant AP site recognizer, and that corresponding to Trp-212 of ExoIII is the auxiliary recognizer.
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PMID:Characterization of the AP endonucleases from Thermoplasma volcanium and Lactobacillus plantarum: Contributions of two important tryptophan residues to AP site recognition. 1696 Mar 76

Apurinic/apyrimidinic endonuclease 1, a key enzyme in repairing abasic sites in DNA, is an embryonic lethal in mice. We are examining its role in embryogenesis in zebra fish. Zebra fish contain two genomic copies (zfAPEX1a and zfAPEX1b) with identical coding sequences. zfAPEX1b lacks introns. Recombinant protein (ZAP1) is highly homologous with and has the same enzymatic properties as its human orthologue. ZAP1 is highly expressed throughout development. Embryos microinjected with morpholino oligonucleotide (MO) targeting the translation start site die at approximately the midblastula transition (MBT) without apoptosis. They are rescued with mRNA for human wild-type APEX1 but not for APEX1 encoding endonuclease-defective protein. Rescued embryos develop dysmorphic hearts, pericardial edema, few erythrocytes, small eyes, and abnormal notochords. Although the hearts in rescued embryos form defective loops ranging from no loop to one that is abnormally shaped, cardiac myosin (cmlc2) is present and contraction occurs. Embryos microinjected with MO targeting zfAPEX1a intron-exon junctions also pass the MBT with similar abnormalities. We conclude that AP endonuclease 1 is involved in both repairing DNA and regulating specific early stages of embryonic development.
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PMID:DNA repair protein involved in heart and blood development. 1696 76

DNA glycosylases/AP lyases initiate repair of oxidized bases in the genomes of all organisms by excising these lesions and then cleaving the DNA strand at the resulting abasic (AP) sites and generate 3' phospho alpha,beta-unsaturated aldehyde (3' PUA) or 3' phosphate (3' P) terminus. In Escherichia coli, the AP-endonucleases (APEs) hydrolyze both 3' blocking groups (3' PUA and 3' P) to generate the 3'-OH termini needed for repair synthesis. In mammalian cells, the previously characterized DNA glycosylases, NTH1 and OGG1, produce 3' PUA, which is removed by the only AP-endonuclease, APE1. However, APE1 is barely active in removing 3' phosphate generated by the recently discovered mammalian DNA glycosylases NEIL1 and NEIL2. We showed earlier that the 3' phosphate generated by NEIL1 is efficiently removed by polynucleotide kinase (PNK) and not APE1. Here we show that the NEIL2-initiated repair of 5-hydroxyuracil (5-OHU) similarly requires PNK. We have also observed stable interaction between NEIL2 and other BER proteins DNA polymerase beta (Pol beta), DNA ligase IIIalpha (Lig IIIalpha) and XRCC1. In spite of their limited sequence homology, NEIL1 and NEIL2 interact with the same domains of Pol beta and Lig IIIalpha. Surprisingly, while the catalytically dispensable C-terminal region of NEIL1 is the common interacting domain, the essential N-terminal segment of NEIL2 is involved in analogous interaction. The BER proteins including NEIL2, PNK, Pol beta, Lig IIIalpha and XRCC1 (but not APE1) could be isolated as a complex from human cells, competent for repair of 5-OHU in plasmid DNA.
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PMID:NEIL2-initiated, APE-independent repair of oxidized bases in DNA: Evidence for a repair complex in human cells. 1698 18

Human 8-oxoguanine-DNA glycosylase (OGG1) is the main human base excision protein that removes a mutagenic lesion 8-oxoguanine (8-oxoG) from DNA. Since OGG1 has DNA glycosylase and weak abasic site (AP) lyase activities and is characterized by slow product release, turnover of the enzyme acting alone is low. Recently it was shown that human AP endonuclease (APE1) enhances the activity of OGG1. This enhancement was proposed to be passive, resulting from APE1 binding to or cleavage of AP sites after OGG1 dissociation. Here we present evidence that APE1 could actively displace OGG1 from its product, directly increasing the turnover of OGG1. We have observed that APE1 forms an electrophoretically detectable complex with OGG1 cross-linked to DNA by sodium borohydride. Using oligonucleotide substrates with a single 8-oxoG residue located in their 5'-terminal, central or 3'-terminal part, we have demonstrated that OGG1 activity does not increase only for the first of these three substrates, indicating that APE1 interacts with the DNA stretch 5' to the bound OGG1 molecule. In kinetic experiments, APE1 enhanced the product release constant but not the rate constant of base excision by OGG1. Moreover, OGG1 bound to a tetrahydrofuran analog of an abasic site stimulated the activity of APE1 on this substrate. Using a concatemeric DNA substrate, we have shown that APE1 likely displaces OGG1 in a processive mode, with OGG1 remaining on DNA but sliding away in search for a new lesion. Altogether, our data support a model in which APE1 specifically recognizes an OGG1/DNA complex, distorts a stretch of DNA 5' to the OGG1 molecule, and actively displaces the glycosylase from the lesion.
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PMID:Mechanism of interaction between human 8-oxoguanine-DNA glycosylase and AP endonuclease. 1712 83

AP endonuclease (APE), with dual activities as an endonuclease and a 3' exonuclease, is a central player in repair of oxidized and alkylated bases in the genome via the base excision repair (BER) pathway. APE acts as an endonuclease in repairing AP sites generated spontaneously or after base excision during BER. It also removes the 3' blocking groups in DNA generated directly by ROS or after AP lyase reaction. In contrast to E. coli and lower eukaryotes which express two distinct APEs of Xth and Nfo types, mammalian genomes encode only one APE, APE1, which is of the Xth type. However, while the APEs together are dispensable in the bacteria and simple eukaryotes, APE1 is essential for mammalian cells. We have shown that apoptosis of mouse embryo fibroblasts triggered by APE1 inactivation can be prevented by ectopic expression of repair competent but not repair-defective APE1. The mitochondrial APE (mtAPE) is an N-terminal truncation product of APE1. A significant fraction of APE1 is cytosolic, and oxidative stress induces its nuclear and mitochondrial translocation. Such age-dependent increase in APE activity in the nucleus and mitochondria is consistent with the hypothesis that aging is associated with chronic oxidative stress.
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PMID:Intracellular trafficking and regulation of mammalian AP-endonuclease 1 (APE1), an essential DNA repair protein. 1716 79

Oxidative DNA damage and DNA repair may mediate several cellular processes, like replication and transcription, mutagenesis and apoptosis and thus may be important for the organism development as well as its pathogenesis, including cancer. Activity of DNA repair enzymes can depend on many factors, such as gene polymorphism, mRNA and protein level, as well as enzymes activation and inhibition. Modulation of base excision repair pathway eliminating from DNA oxidatively formed lesions may be caused by the diet, inflammation and neoplastic transformation. Reactive oxygen species and some diet components induce transcription of several Base Excision Repair enzymes, e.g. major human AP-endonuclease, (APE1) and 8-oxoG-DNA glycosylase (OGG1). The carcinogenic process in human lung decreases repair activity for 8-oxoGin transcription independent manner, but increases repair activity of epsilon A and epsilon C, as measured in tumors and unchanged lung tissues of lung cancer patients. Thus, modulation of repair enzymes activities may be a cell response on their way to differentiation ot neoplastic transformation.
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PMID:Modulation of oxidative DNA damage repair by the diet, inflammation and neoplastic transformation. 1722 95

Apurinic/apyrimidinic (AP) endonuclease 1 (APE1) is the primary enzyme in mammals for the repair of abasic sites in DNA, as well as a variety of 3' damages that arise upon oxidation or as products of enzymatic processing. If left unrepaired, APE1 substrates can promote mutagenic and cytotoxic outcomes. We describe herein a dominant-negative form of APE1 that lacks detectable nuclease activity and binds substrate DNA with a 13-fold higher affinity than the wild-type protein. This mutant form of APE1, termed ED, possesses two amino acid substitutions at active site residues Glu(96) (changed to Gln) and Asp(210) (changed to Asn). In vitro biochemical assays reveal that ED impedes wild-type APE1 AP site incision function, presumably by binding AP-DNA and blocking normal lesion processing. Moreover, tetracycline-regulated (tet-on) expression of ED in Chinese hamster ovary cells enhances the cytotoxic effects of the laboratory DNA-damaging agents, methyl methanesulfonate (MMS; 5.4-fold) and hydrogen peroxide (1.5-fold). This MMS-induced, ED-dependent cell killing coincides with a hyperaccumulation of AP sites, implying that excessive DNA damage is the cause of cell death. Because an objective of the study was to identify a protein reagent that could be used in targeted gene therapy protocols, the effects of ED on cellular sensitivity to a number of chemotherapeutic compounds was tested. We show herein that ED expression sensitizes Chinese hamster ovary cells to the killing effects of the alkylating agent 1,3-bis(2-chloroethyl)-1-nitrosourea (also known as carmustine) and the chain terminating nucleoside analogue dideoxycytidine (also known as zalcitabine), but not to the radiomimetic bleomycin, the nucleoside analogue beta-D-arabinofuranosylcytosine (also known as cytarabine), the topoisomerase inhibitors camptothecin and etoposide, or the cross-linking agents mitomycin C and cisplatin. Transient expression of ED in the human cancer cell line NCI-H1299 enhanced cellular sensitivity to MMS, 1,3-bis(2-chloroethyl)-1-nitrosourea, and dideoxycytidine, demonstrating the potential usefulness of this strategy in the treatment of human tumors.
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PMID:A dominant-negative form of the major human abasic endonuclease enhances cellular sensitivity to laboratory and clinical DNA-damaging agents. 1725 46

Apurinic/apyrimidinic endonuclease 1/redox effector factor-1 (APE1/Ref-1, abbreviated as APE1) is a molecule with dual functions in DNA repair and redox regulation of transcription factors. Accumulated work has shown that the biological activities of APE1 are sensitive to oxidative stress; however, whether APE1 functions can be regulated by nitrosative stress remains unknown. In this investigation, we found that S-nitrosoglutathion (GSNO), a nitric oxide donor and also an S-nitrosating agent, effectively stimulated nuclear export of APE1 in a CRM1-independent manner. This nuclear-cytoplasmic translocation was dependent on S-nitrosation modification of APE1, as simultaneous mutation of S-nitrosation target sites Cys93 and Cys310 completely abrogated the cytoplasmic redistribution. The translocation process was reversal and specific, as it could be reversed by reductive reagents, but could not be mimicked by H2O2. In structure, the region aa.64-80 and the beta-strand aa.311-316 in proximity to Cys93 and Cys310 were important for GSNO-induced APE1 relocalization. In addition, a defect of importin-mediated nuclear import pathway was found in the NO-insulted cells, and p50 and HDAC2 were identified as APE1 nuclear export inhibitory proteins. Together, this study may provide a novel molecular mechanism, which links nitrosative stress to APE1-associated physiological and pathological processes.
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PMID:Nitric oxide controls nuclear export of APE1/Ref-1 through S-nitrosation of cysteines 93 and 310. 1740 94

Apurinic/apyrimidinic endonuclease (APE-1) is essential for base excision repair (BER) of damaged DNA. Here molecular dynamics (MD) simulations of APE1 complexed with cleaved and uncleaved damaged DNA were used to determine the role and position of the metal ion(s) in the active site before and after DNA cleavage. The simulations started from an energy minimized wild-type structure of the metal-free APE1/damaged-DNA complex (1DE8). A grid search with one Mg2+ ion located two low energy clusters of Mg2+ consistent with the experimentally determined metal ion positions. At the start of the longer MD simulations, Mg2+ ions were placed at different positions as seen in the crystal structures and the movement of the ion was followed over the course of the trajectory. Our analysis suggests a "moving metal mechanism" in which one Mg2+ ion moves from the B- (more buried) to the A-site during substrate cleavage. The anticipated inversion of the phosphate oxygens occurs during the in-line cleavage reaction. Experimental results, which show competition between Ca2+ and Mg2+ for catalyzing the reaction, and high concentrations of Mg2+ are inhibitory, indicate that both sites cannot be simultaneously occupied for maximal activity.
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PMID:A "moving metal mechanism" for substrate cleavage by the DNA repair endonuclease APE-1. 1742 52

In recent years, the impact of sperm DNA damage on fertility has become an important issue. The different technologies developed to check sperm DNA fragmentation lead to the same conclusion: DNA damage negatively impacts upon reproductive processes. Oocyte DNA repair capacity is one of the cues to understanding embryo developmental arrest. APEX/Ref-1 (apurinic/apyrimidic endonuclease) is an enzyme involved in the DNA base excision repair pathway removing the abasic sites, the most common DNA decays. In humans, APEX has a multifunctional role, including the control of the redox status of transcription factors. RT-PCR allowed us to detect human APEX transcripts in oocytes, spermatozoa and preimplantation blocked embryos. In parallel, a comparative study on sea squirt Ciona intestinalis (ascidian) indicated that APEX transcripts are clearly detectable in oocytes and embryos until the larva stage, but not in spermatozoa, suggesting the appearance of the paternal contribution to DNA repair during development having arisen only late in Vertebrate evolution. Of additional phylogenetic significance is the observation that sea squirt APEX appears to lack redox transcriptional activity.
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PMID:APEX/Ref-1 (apurinic/apyrimidic endonuclease DNA-repair gene) expression in human and ascidian (Ciona intestinalis) gametes and embryos. 1756

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