EC:6.5.1.2 - FACTA Search

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Query: EC:6.5.1.2 (DNA ligase)
2,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Ape1 protein initiates the repair of apurinic/apyrimidinic sites during mammalian base excision repair (BER) of DNA. Ape1 catalyzes hydrolysis of the 5'-phosphodiester bond of abasic DNA to create nicks flanked by 3'-hydroxyl and 5'-deoxyribose 5-phosphate (dRP) termini. DNA polymerase (pol) beta catalyzes both DNA synthesis at the 3'-hydroxyl terminus and excision of the 5'-dRP moiety prior to completion of BER by DNA ligase. During BER, Ape1 recruits pol beta to the incised apurinic/apyrimidinic site and stimulates 5'-dRP excision by pol beta. The activities of these two enzymes are thus coordinated during BER. To examine further the coordination of BER, we investigated the ability of Ape1 to modulate the deoxynucleotidyltransferase and 5'-dRP lyase activities of pol beta. We report here that Ape1 stimulates 5'-dRP excision by a mechanism independent of its apurinic/apyrimidinic endonuclease activity. We also demonstrate a second mechanism, independent of Ape1, in which conditions that support DNA synthesis by pol beta also enhance 5'-dRP excision. Ape1 modulates the gap-filling activity of pol beta by specifically inhibiting synthesis on an incised abasic substrate but not on single-nucleotide gapped DNA. In contrast to the wild-type Ape1 protein, a catalytically impaired mutant form of Ape1 did not affect DNA synthesis by pol beta. However, this mutant protein retained the ability to stimulate 5'-dRP excision by pol beta. Simultaneous monitoring of 5'-dRP excision and DNA synthesis by pol beta demonstrated that the 5'-dRP lyase activity lags behind the polymerase activity despite the coordination of these two steps by Ape1 during BER.
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PMID:Modulation of the 5'-deoxyribose-5-phosphate lyase and DNA synthesis activities of mammalian DNA polymerase beta by apurinic/apyrimidinic endonuclease 1. 1507 79

The co-transcription factor and DNA repair enzyme, Redox effector factor-1/apurinic/apyrimidinic endonuclease (Ref-1/Ape), facilitates DNA binding and transcriptional activity of a number of transactivating factors, including those governing hypoxia-induced gene expression HIF-1. It is not known, however, whether Ref-1/Ape is a component of the hypoxic transcriptional complex. Electrophoretic mobility shift assays failed to detect direct DNA binding of Ref-1/Ape to either the HIF-1 or AP1 DNA recognition sequences present in the hypoxic response element of the VEGF gene. However, immunodepletion of Ref-1/Ape from nuclear extract prevented DNA binding of ATF/CREB and HIF-1 to the HIF-1 DNA recognition sequence. DNA affinity-precipitation analyses showed that Ref-1/Ape was part of the multiprotein transcriptional complex forming on a 64-mer sequence encompassing a minimal hypoxic response element. Immunodepletion of Ref-1/Ape prevented probe association with HIF-1, p300, ATF, and CREB. Co-immunoprecipitation experiments indicated that Ref-1/Ape present in nuclear extract interacted with HIF-1 and p300 but not ATF/CREB. However, when Ref-1/Ape was immunoprecipitated from the oligonucleotide probe, both HIF-1 and p300 remained probe-associated while ATF/CREB co-immunoprecipitated. These findings suggest that Ref-1/Ape is a critical component of the hypoxia-inducible transcriptional complex forming on the VEGF gene's hypoxic response element and that the presence of Ref-1/Ape in the complex is required for the apparent high affinity association between HIF-1 and its DNA recognition sequence.
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PMID:Ref-1/Ape is critical for formation of the hypoxia-inducible transcriptional complex on the hypoxic response element of the rat pulmonary artery endothelial cell VEGF gene. 1508 19

Physiological stimuli using reactive oxygen species (ROS) as second messengers caused nucleotide-specific base modifications in the hypoxic response element of the VEGF gene in lung vascular cells, with the 3' guanine of the HIF-1 DNA recognition sequence uniformly targeted. Modeling this effect by replacing the targeted guanine with an abasic site increased incorporation of HIF-1 and the bi-functional DNA repair enzyme and transcriptional coactivator, Ref-1/Ape1, into the transcriptional complex and engendered more robust reporter gene expression. Oxidants generated in the context of physiological signaling thus affect nuclear DNA integrity and may facilitate gene expression by optimizing DNA-protein interactions.
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PMID:Oxidants in signal transduction: impact on DNA integrity and gene expression. 1574 82

Ionizing radiation, oxidative stress and endogenous DNA-damage processing can result in a variety of single-strand breaks with modified 5' and/or 3' ends. These are thought to be one of the most persistent forms of DNA damage and may threaten cell survival. This study addresses the mechanism involved in recognition and processing of DNA strand breaks containing modified 3' ends. Using a DNA-protein cross-linking assay, we followed the proteins involved in the repair of oligonucleotide duplexes containing strand breaks with a phosphate or phosphoglycolate group at the 3' end. We found that, in human whole cell extracts, end-damage-specific proteins (apurinic/apyrimidinic endonuclease 1 and polynucleotide kinase in the case of 3' ends containing phosphoglycolate and phosphate, respectively) which recognize and process 3'-end-modified DNA strand breaks are required for efficient recruitment of X-ray cross-complementing protein 1-DNA ligase IIIalpha heterodimer to the sites of DNA repair.
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PMID:End-damage-specific proteins facilitate recruitment or stability of X-ray cross-complementing protein 1 at the sites of DNA single-strand break repair. 1627 40

The base excision repair pathway removes damaged DNA bases and resynthesizes DNA to replace the damage. Human alkyladenine DNA glycosylase (AAG) is one of several damage-specific DNA glycosylases that recognizes and excises damaged DNA bases. AAG removes primarily damaged adenine residues. Human AP endonuclease 1 (APE1) recognizes AP sites produced by DNA glycosylases and incises the phophodiester bond 5' to the damaged site. The repair process is completed by a DNA polymerase and DNA ligase. If not tightly coordinated, base excision repair could generate intermediates that are more deleterious to the cell than the initial DNA damage. The kinetics of AAG-catalyzed excision of two damaged bases, hypoxanthine and 1,N6-ethenoadenine, were measured in the presence and absence of APE1 to investigate the mechanism by which the base excision activity of AAG is coordinated with the AP incision activity of APE1. 1,N6-ethenoadenine is excised significantly slower than hypoxanthine and the rate of excision is not affected by APE1. The excision of hypoxanthine is inhibited to a small degree by accumulated product, and APE1 stimulates multiple turnovers by alleviating product inhibition. These results show that APE1 does not significantly affect the kinetics of base excision by AAG. It is likely that slow excision by AAG limits the rate of AP site formation in vivo such that AP sites are not created faster than can be processed by APE1.
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PMID:Slow base excision by human alkyladenine DNA glycosylase limits the rate of formation of AP sites and AP endonuclease 1 does not stimulate base excision. 1701 65

Increased oxidative stress and subsequent lipid peroxidation (LPO) are thought to be critical events in the formation of atherosclerotic lesions in apolipoprotein E deficient mice (ApoE-KO). LPO derived reactive aldehydes react with DNA to form exocyclic etheno-DNA adducts. These pro-mutagenic DNA lesions are known to be involved in the initiation of carcinogenesis, but their role in the development of atherosclerosis is unknown. In the present study we show that levels of the LPO derived 1,N(6)-ethenodeoxyadenosine (varepsilondA) and 3,N(4)-ethenodeoxycytidine (varepsilondC) were both significantly lower in aorta of 12 weeks old ApoE-KO mice as compared to their wild type controls (1.6+/-0.3 versus 3.2+/-0.8 varepsilondA per 10(8) parent nucleotides, P=0.04 and 4.8+/-0.8 versus 9.2+/-2.1 for varepsilondC, P=0.02). Moreover, levels of both DNA adduct types were inversely related with total plasma cholesterol levels. Consequently, lowest etheno-DNA adduct levels were observed in ApoE-KO mice on a high fat diet. Hypercholesterolemia has previously been associated with increased expression of base excision repair (BER) enzymes, which could explain the lower levels of etheno-DNA adducts in ApoE-KO mice as compared to wild type controls. Indeed, increased staining for the BER-specific DNA repair enzyme apurinic/apyrimidinic endonuclease (Ape1/Ref1) was observed by immunohistochemistry in the endothelium and the first layers of arterial smooth muscle cells of ApoE-KO mice as compared to their wild type counterparts. A high fat diet further increased overall Ape1/Ref1 protein expression in ApoE-KO mice. Although these data suggest no role for increased LPO derived DNA damage in the onset of atherogenesis in ApoE-KO mice, the potentially modulating role of Ape1/Ref1 in the arterial wall deserves further attention.
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PMID:Decreased levels of lipid peroxidation-induced DNA damage in the onset of atherogenesis in apolipoprotein E deficient mice. 1741 75

Arsenite is a human carcinogen causing skin, bladder, and lung tumors, but the cellular mechanisms underlying these effects remain unclear. We investigated expression of the essential base excision DNA repair enzyme apurinic endonuclease 1 (Ape1) in response to sodium arsenite. In mouse 10T(1/2) fibroblasts, Ape1 induction in response to arsenite occurred about equally at the mRNA, protein, and enzyme activity levels. Analysis of the APE1 promoter region revealed an AP-1/CREB binding site essential for arsenite-induced transcriptional activation in both mouse and human cells. Electrophoretic mobility shift assays indicated that an ATF4/c-Jun heterodimer was the responsible transcription factor. RNA interference targeting c-Jun or ATF4 eliminated arsenite-induced APE1 transcription. Suppression of Ape1 or ATF4 sensitized both mouse fibroblasts (10T(1/2)) and human lymphoblastoid cells (TK6) to arsenite cytotoxicity. Expression of Ape1 from a transgene did not efficiently restore arsenite resistance in ATF4-depleted cells but did offset initial accumulation of abasic DNA damage following arsenite treatment. Mutagenesis by arsenite (at the TK and HPRT loci in TK6 cells) was observed only for ATF4-depleted cells, which was strongly offset by Ape1 expression from a transgene. Therefore, the ATF4-mediated up-regulation of Ape1 and other genes plays a key role against arsenite-mediated toxicity and mutagenesis.
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PMID:ATF4-dependent oxidative induction of the DNA repair enzyme Ape1 counteracts arsenite cytotoxicity and suppresses arsenite-mediated mutagenesis. 1793 2

Apurinic endonuclease 1/redox effector factor-1 (Ape1/Ref-1 or Ape1) is an essential protein with two distinct functions. It is a DNA repair enzyme in the base excision repair (BER) pathway and a reduction-oxidation (redox) signaling factor maintaining transcription factors in an active reduced state. Our laboratory previously demonstrated that Ape1 is overexpressed in ovarian cancer and potentially contributes to resistance. Therefore, we utilized siRNA technology to knockdown protein levels of Ape1 in ovarian cancer cell line, SKOV-3x. Knocking Ape1 down had dramatic effects on cell growth in vitro but was not due to an increase in apoptosis and at least partially due to an extension in transit time through S-phase. Similarly, human ovarian tumor xenografts with reduced levels of Ape1 protein demonstrated a dramatic reduction in tumor volume (p<0.01) and also statistically significant (p=0.02) differences in (18)F-fluorodeoxyglucose (FDG) uptake indicating reduced glucose metabolism and cellular proliferation. Ape1's role in DNA repair and redox signaling is important to our basic understanding of ovarian cancer cell growth and these findings strongly support Ape1 as a therapeutic target.
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PMID:Knockdown of the DNA repair and redox signaling protein Ape1/Ref-1 blocks ovarian cancer cell and tumor growth. 1797 6

trans-Resveratrol (3,4',5-trihydroxystilbene; RES), a polyphenol found in particularly high concentrations in red wine, has recently attracted intense interest for its potentially beneficial effects on human health. Here, we report the effects of long-term exposure to micromolar concentrations of RES on antioxidant and DNA repair enzyme activities in a human cell line (MRC-5). RES had either no effect on, or reduced the activities of glutathione peroxidase, catalase and CuZn superoxide dismutase (SOD), in treatments lasting up to 2 weeks. RES failed to induce activities of the DNA base excision repair enzymes apurinic/apyrimidinic endonuclease and DNA polymerase beta. However, it dramatically and progressively induced mitochondrial MnSOD expression and activity. Two weeks exposure to RES increased MnSOD protein level 6-fold and activity 14-fold. Thus, long-term exposure of human cells to RES results in a highly specific upregulation of MnSOD, and this may be an important mechanism by which it elicits its effects in human cells.
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PMID:Molecular mechanisms of oxidative stress resistance induced by resveratrol: Specific and progressive induction of MnSOD. 1816 10

The endonucleolytic activity of human apurinic/apyrimidinic endonuclease (AP endo) is a major factor in the maintenance of the integrity of the human genome. There are estimates that this enzyme is responsible for eliminating as many as 10(5) potentially mutagenic and genotoxic lesions from the genome of each cell every day. Furthermore, inhibition of AP endonuclease may be effective in decreasing the dose requirements of chemotherapeutics used in the treatment of cancer as well as other diseases. Therefore, it is essential to accurately and directly characterize the enzymatic mechanism of AP endo. Here we describe specifically designed double-stranded DNA oligomers containing tetrahydrofuran (THF) with a 5'-phosphorothioate linkage as the abasic site substrate. Using H(2)(18)O during the cleavage reaction and leveraging the stereochemical preferences of AP endo and T4 DNA ligase for phosphorothioate substrates, we show that AP endo acts by a one-step associative phosphoryl transfer mechanism on a THF-containing substrate.
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PMID:Enzymatic mechanism of human apurinic/apyrimidinic endonuclease against a THF AP site model substrate. 1912 19

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