Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The benzetheno exocyclic adduct of the cytosine (C) base (pBQ-C) is a product of reaction between DNA and a stable metabolite of the human carcinogen benzene, p-benzoquinone (pBQ). We reported previously that the pBQ-C-containing duplex is a substrate for the human AP
endonuclease
(
APE1
), an enzyme that cleaves an apurinic/apyrimidinic (AP) site from double stranded DNA. In this work, using molecular dynamics simulation (MD), we provided a structural explanation for the recognition of the pBQ-C adduct by
APE1
. Molecular modeling of the DNA duplex containing pBQ-C revealed significant displacement of this adduct toward the major groove with pronounced kinking of the DNA at the lesion site, which could serve as a structural element recognized by the
APE1
enzyme. Using 3 ns MD it was shown that the position of the pBQ-C adduct is stabilized by two hydrogen bonds formed between the adduct and the active site amino acids Asp 189 and Ala 175. The pBQ-C/
APE1
complex, generated by MD, has a similar hydrogen bond network between target phosphodiester bond at the pBQ-C site and key amino acids at the active site, as in the crystallographically determined
APE1
complexed with an AP site-containing DNA duplex. The position of the adduct at the enzyme active site, together with the hydrogen bond network, suggests a similar reaction mechanism for phosphodiester bond cleavage of oligonucleotide containing pBQ-C as reported for the AP site.
...
PMID:Structural insights by molecular dynamics simulations into specificity of the major human AP endonuclease toward the benzene-derived DNA adduct, pBQ-C. 1515 53
The human L1
endonuclease
(L1-EN) is encoded by the non-LTR retrotransposon LINE-1 (L1). L1 is responsible for more than 1.5 million retrotransposition events in the history of the human genome, contributing more than a quarter to human genomic DNA (L1 and Alu elements). L1-EN is related to the well-understood human DNA repair
endonuclease
APE1
, and its nicking specificity is a major determinant for retrotransposon integration site selection. The crystal structure of human L1
endonuclease
is the first of a retrotransposon-encoded protein and a prototype for retrotransposon-encoded endonucleases involved in target-primed reverse transcription. Structure-based
endonuclease
alignments reveal a conserved threonine in addition to previously identified invariant residues and suggest that DNA recognition proceeds via the accommodation of an extrahelical nucleotide within a pocket of the enzyme. The present analysis will help to refine phylogenetic and functional relationships among metal-dependent phosphohydrolases and provides a basis for manipulating non-LTR retrotransposon integration site selection.
...
PMID:Crystal structure of the targeting endonuclease of the human LINE-1 retrotransposon. 1527 18
Cells repair DNA damage via four main mechanisms, however, damage induced by alkylators and oxidative damage is predominantly repaired by the DNA base excision repair (BER) pathway. The AP
endonuclease
,
APE1
, is one of the main enzymes in the BER pathway. It is abundant in human cells and accounts for nearly all of the abasic site cleavage activity observed in cellular extracts.
APE1
expression is elevated in a variety of cancers and a high
APE1
expression has been associated with poor outcome to chemoradiotherapy. The small molecule lucanthone has been shown to enhance the killing ability of ionizing radiation in cells and preliminary evidence suggests that lucanthone may inhibit AP
endonuclease
. Given the role
APE1
plays in repairing oxidative and ionizing radiation DNA damage, the reports of lucanthone as an ionizing radiation enhancer and the potential use of lucanthone as an AP
endonuclease
inhibitor, we examined whether lucanthone could inhibit
APE1
endonuclease
activity. We report that lucanthone inhibits the repair activity of
APE1
, but not its redox function or exonuclease activity on mismatched nucleotides. Lucanthone also appears to inhibit exonuclease III family members (
APE1
and ExoIII), but not
endonuclease
IV AP endonucleases, nor bifunctional glycosylase/lyases such as endonuclease VIII or formamidopyrimidine-DNA glycosylase (Fpg). Furthermore, the addition of lucanthone inhibits
APE1
repair activity from cellular extracts and enhances the cell killing effect of the laboratory alkylating agent methyl methanesulfonate (MMS) and the clinically relevant agent temozolomide (TMZ). Given these initial findings, it would be of interest to further develop lucanthone as an
APE1
inhibitor through the use of structure-function studies as a means of enhancing the sensitization of tumors to chemotherapeutic agents.
...
PMID:Inhibition of the human apurinic/apyrimidinic endonuclease (APE1) repair activity and sensitization of breast cancer cells to DNA alkylating agents with lucanthone. 1533 Jan 52
The eukaryotic 8-oxoguanine-DNA glycosylase 1 (OGG1) provides the major activity for repairing mutagenic 7,8-dihydro-8-oxoguanine (8-oxoG) induced in the genome due to oxidative stress. Earlier in vitro studies showed that, after excising the base lesion, the human OGG1 remains bound to the resulting abasic (AP) site in DNA and does not turn over efficiently. The human AP-
endonuclease
(
APE1
), which cleaves the phosphodiester bond 5' to the AP site, in the next step of repair, displaces the bound OGG1 and thus increases its turnover. Here we show that NEIL1, a DNA glycosylase/AP lyase specific for many oxidized bases but with weak 8-oxoG excision activity, stimulates turnover of OGG1 in a fashion similar to that of
APE1
and carries out betadelta-elimination at the AP site. This novel collaboration of two DNA glycosylases, which do not stably interact with each other, in stimulating 8-oxoguanine repair is possible because of higher AP site affinity and stronger AP lyase activity of NEIL1 relative to OGG1. Comparable levels of NEIL1 and OGG1 in some human cells raise the possibility that NEIL1 serves as a backup enzyme to
APE1
in stimulating 8-oxoG repair in vivo.
...
PMID:Stimulation of DNA glycosylase activity of OGG1 by NEIL1: functional collaboration between two human DNA glycosylases. 1535 Jan 46
Chronic oxidative stress is generally believed to be a major etiologic factor in the aging process. In addition to modulation of signaling processes and oxidation of cellular proteins and lipids, reactive oxygen species (ROS) induce multiple damages in both nuclear and mitochondrial genomes, most of which are repaired via the DNA base excision repair pathway. 8-Oxoguanine (8-oxoG), a major ROS product in the genome, is excised by 8-oxoG-DNA glycosylase (OGG1) and the resulting abasic (AP) site is cleaved by AP-
endonuclease
(
APE1
) in the initial steps of repair. Here, we provide data showing that differences between young and aged cells' efficiency in import of OGG1 and
APE1
may be responsible for age-associated increase in DNA damage in both nuclear and mitochondrial compartments. It is also evident that age-dependent changes in covalent modifications of
APE1
by acetylation regulate its action as a transcriptional repressor of many Ca(2+)-responsive genes by binding to nCaRE, in addition to its
endonuclease
activity. Thus, ROS-induced altered signaling is responsible for age-dependent changes in post-translational modifications and import of DNA repair enzymes into nuclei and mitochondria (mt), which in turn affect repair of their genomes.
...
PMID:Age-dependent modulation of DNA repair enzymes by covalent modification and subcellular distribution. 1554 70
XRCC1 protein is essential for mammalian viability and is required for the efficient repair of single strand breaks (SSBs) and damaged bases in DNA. XRCC1-deficient cells are genetically unstable and sensitive to DNA damaging agents. XRCC1 has no known enzymatic activity and is thought to act as a scaffold protein for both SSB and base excision repair activities. To further define the defects leading to genetic instability in XRCC1-deficient cells, we overexpressed the AP
endonuclease
APE1
, shown previously to interact with and be stimulated by XRCC1. Here, we report that the overexpression of
APE1
can compensate for the impaired capability of XRCC1-deficient cells to repair SSBs induced by oxidative DNA damage, both in vivo and in whole-cell extracts. We show that, for this kind of damage, the repair of blocked DNA ends is rate limiting and can be performed by
APE1
. Conversely,
APE1
overproduction resulted in a 3-fold increase in the sensitivity of XRCC1-deficient cells to an alkylating agent, most probably due to the accumulation of SSBs. Finally, the overproduction of
APE1
results in increases of 40% in the frequency of micronuclei and 33% in sister chromatid exchanges of XRCC1- cells. These data suggest that the spontaneous generation of AP sites could be at the origin of the SSBs responsible for the spontaneous genetic instability characteristic of XRCC1-deficient cells.
...
PMID:APE1 overexpression in XRCC1-deficient cells complements the defective repair of oxidative single strand breaks but increases genomic instability. 1564 12
The mammalian abasic
endonuclease
,
APE1
, has two distinct roles in the repair of oxidative DNA damage and in gene regulation. Here we show that both functions are essential for cell survival. Deletion of the
APE1
gene causes embryonic lethality in mice, and no nullizygous embryo fibroblasts have been isolated. We have now established nullizygous embryo fibroblast lines from
APE1
(-/-) mouse embryos that are transgenic with the "floxed" human
APE1
(hAPE1) gene. Removal of hAPE1 by Cre expression through nuclear microinjection elicited apoptosis in these cells within 24 h, which was blocked by coinjection of the wild-type hAPE1 gene. In contrast, mutant hAPE1 alleles, lacking either the DNA repair or acetylation-mediated gene regulatory function, could not prevent apoptosis, although the combination of these two mutants complemented APE deficiency induced by Cre. These results indicate that distinct and separable functions of
APE1
are both essential for mammalian cells even in vitro and provide the evidence that mammalian cells, unlike yeast or Escherichia coli, absolutely require APE for survival, presumably to protect against spontaneous oxidative DNA damage.
...
PMID:Two essential but distinct functions of the mammalian abasic endonuclease. 1582 25
The abasic (AP)
endonuclease
(
APE1
) plays a central role in the base excision repair (BER) pathway for repairing oxidatively damaged bases and abasic sites in mammalian genomes. We have investigated age-dependent changes in APE activity, contributed primarily by
APE1
, in total extracts as well as in nuclear, mitochondrial, and cytoplasmic compartments of mouse hepatocytes. The
APE1
protein and mRNA levels did not differ significantly between the livers of 4-mo (young), 10-mo (middle-aged), and 20-mo (old) mice, and corresponds with similar APE activity. However, we observed a 2-fold increase in specific activity of
APE1
in the nucleus, a 2-fold decrease in the cytoplasm, and a 6-fold increase in the mitochondrial matrix of hepatocytes of the old relative to the young animals. Surprisingly, in the middle-age animals we observed 30% increase in APE activity in the nucleus but 6-fold in the mitochondrial matrix. These results indicate age-dependent accumulation of
APE1
in the nucleus and mitochondria. Such redistribution occurred early in the mitochondria during the aging process and preferential accumulation of APE in the nucleus was more gradual which may reflect distinct levels of oxidative stress in these organelles.
...
PMID:Effect of aging on intracellular distribution of abasic (AP) endonuclease 1 in the mouse liver. 1595 Oct 4
Apurinic apyrimidinic
endonuclease
redox effector factor-1 (
APE1
/Ref-1) is involved both in the base excision repair (BER) of DNA lesions and in the eukaryotic transcriptional regulation.
APE1
/Ref-1 is regulated at both the transcriptional and post-translational levels, through control of subcellular localization and post-translational modification. In response to stress conditions, several cell types release ATP, which exerts stimulatory effects on eukaryotic cells via the purinergic receptors (P2) family. By using western blot and immunofluorescence analysis on a human tumour thyroid cell line (ARO), we demonstrate that purinergic stimulation by extracellular ATP induces quick cytoplasm to nucleus translocation of the protein at early times and its neosynthesis at later times. Continuous purinergic triggering by extracellular ATP released by ARO cells is responsible for the control of
APE1
/Ref-1 intracellular level. Interference with intracellular pathways activated by P2 triggering demonstrates that Ca2+ mobilization and intracellular reactive oxygen species (ROS) production are responsible for
APE1
/Ref-1 translocation. The
APE1
/Ref-1 activities on activator protein-1 (AP-1) DNA binding and DNA repair perfectly match its nuclear enrichment upon ATP stimulation. The biological relevance of our data is reinforced by the observation that
APE1
/Ref-1 stimulation by ATP protects ARO cells by H2O2-induced cell death. Our data provide new insights into the complex mechanisms regulating
APE1
/Ref-1 functions.
...
PMID:Activation of APE1/Ref-1 is dependent on reactive oxygen species generated after purinergic receptor stimulation by ATP. 1607 24
The base excision repair (BER) pathway is essential for the removal of DNA bases damaged by alkylation or oxidation. A key step in BER is the processing of an apurinic/apyrimidinic (AP) site intermediate by an AP
endonuclease
. The major AP
endonuclease
in human cells (
APE1
, also termed HAP1 and Ref-1) accounts for >95% of the total AP
endonuclease
activity, and is essential for the protection of cells against the toxic effects of several classes of DNA damaging agents. Moreover,
APE1
overexpression has been linked to radio- and chemo-resistance in human tumors. Using a newly developed high-throughput screen, several chemical inhibitors of
APE1
have been isolated. Amongst these, CRT0044876 was identified as a potent and selective
APE1
inhibitor. CRT0044876 inhibits the AP
endonuclease
, 3'-phosphodiesterase and 3'-phosphatase activities of
APE1
at low micromolar concentrations, and is a specific inhibitor of the exonuclease III family of enzymes to which
APE1
belongs. At non-cytotoxic concentrations, CRT0044876 potentiates the cytotoxicity of several DNA base-targeting compounds. This enhancement of cytotoxicity is associated with an accumulation of unrepaired AP sites. In silico modeling studies suggest that CRT0044876 binds to the active site of
APE1
. These studies provide both a novel reagent for probing
APE1
function in human cells, and a rational basis for the development of
APE1
-targeting drugs for antitumor therapy.
...
PMID:Isolation of a small molecule inhibitor of DNA base excision repair. 1611 42
<< Previous
1
2
3
4
5
6
7
8
9
10
Next >>
