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Enzyme
Compound
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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)
We examined expression of N-methylpurine-DNA glycosylase (MPG), a
DNA repair enzyme
that removes N-alkylpurine damage, in normal, malignant, and immortalized breast epithelial cells, and breast cancer cell lines (MDA-MB-231, MCF7, T47D). Northern analysis showed increased expression in cancer versus normal breast epithelial cells (2-24-fold). Southern blots revealed no gene amplification or polymorphisms. Immunofluorescence, immunohistochemistry, and Western blot analysis demonstrated increased MPG protein expression in the tumor cells that correlated with elevated glycosylase activity. Since MPG overexpression has been shown to be paradoxically associated with increased susceptibility to DNA damage, up-regulation of this gene may suggest a functional role in breast
carcinogenesis
.
...
PMID:Altered expression of the DNA repair protein, N-methylpurine-DNA glycosylase (MPG) in breast cancer. 968 56
Arsenic is a human carcinogen whose mechanism of action is unknown. Previously, this laboratory demonstrated that arsenite acts as a comutagen by interfering with DNA repair, although a specific
DNA repair enzyme
sensitive to arsenite has not been identified. A number of stable arsenite-sensitive and arsenite-resistant sublines of Chinese hamster V79 cells have now been isolated. In order to gain understanding of possible targets for arsenite's action, one arsenite-resistant subline, As/R28A, was chosen as a donor for a cDNA expression library. The library from arsenite-induced As/R28A cells was transfected into arsenite-sensitive As/S5 cells, and transfectants were selected for arsenite-resistance. Two cDNAs, asr1 and asr2, which confer arsenite resistance to arsenite-hypersensitive As/S5 cells as well as to wild-type cells, were isolated. asr1 shows almost complete homology with the rat fau gene, a tumor suppressor gene which contains a ubiquitin-like region fused to S30 ribosomal protein. Arsenite was previously shown to inhibit ubiquitin-dependent proteolysis. These results suggest that the tumor suppressor fau gene product or some other aspect of the ubiquitin system may be a target for arsenic toxicity and that disruption of the ubiquitin system may contribute to the genotoxicity and carcinogenicity of arsenite.
Carcinogenesis
1999 Feb
PMID:Expression cloning for arsenite-resistance resulted in isolation of tumor-suppressor fau cDNA: possible involvement of the ubiquitin system in arsenic carcinogenesis. 1006 70
The activity of the
DNA repair enzyme
O6-alkylguanine-DNA-alkyltransferase (ATase) may be a risk factor in the pathogenesis of lung cancer. ATase activity has previously been measured in peripheral blood lymphocytes (PBLs), cell extracts from bronchoalveolar lavage fluid, and cell homogenates from resected lung tissue. However, it is not clear whether ATase activity in these samples correlates well with the activity found in bronchial epithelial cells, the progenitor cells for the main types of lung cancer. In this study, cell extracts were prepared from PBLs, bronchial lavage (BL) fluid, and bronchial brushings from normal lung in 20 patients attending for routine bronchoscopy. Bronchial brushing sampled a significantly greater proportion of bronchial epithelial cells than did BL [88+/-9% (mean+/-SD) versus 39+/-19%; P < 0.0001]. ATase activity was determined in each of the cell extracts and was found to be higher in PBLs than in bronchial brushings (P = 0.005) and higher in bronchial brushings than in BL (P = 0.005). No correlation in ATase levels was observed between any of the three samples. We conclude that bronchial brushing is a more specific and reliable way of sampling bronchial epithelial cells than BL and that it samples enough cells for ATase activity to be determined. In addition, in terms of the activity of this potentially critical
DNA repair enzyme
, PBLs, and cell extracts obtained from BL may not provide good surrogate tissue for bronchial epithelial cells, the critical targets for
carcinogenesis
.
...
PMID:Association between O6-alkylguanine-DNA-alkyltransferase activity in peripheral blood lymphocytes and bronchial epithelial cells. 1042 3
Carboxymethylating agents are potential sources of endogenous DNA damage that have been proposed as possible contributors to gastrointestinal
carcinogenesis
. The cytotoxicity of the model DNA carboxymethylating agent azaserine was investigated in human cells. Expression of the
DNA repair enzyme
O(6)-methylguanine-DNA methyltransferase (MGMT) did not affect sensitivity to the drug in two related Raji Burkitt's lymphoma cell lines. DNA mismatch repair-defective variants of Raji cells which display increased tolerance to DNA methylation damage were not selectively resistant to azaserine. Complementary results were obtained with a second carboxymethylating agent, potassium diazoacetate. In contrast, lymphoblastoid cell lines representative of each of the xeroderma pigmentosum complementation groups, including the variant, were all significantly more sensitive to azaserine than nucleotide excision repair-proficient cells. The hypersensitivity of XP cells was not due to systematic differences in the concentrations of intracellular thiol compounds or related thiol metabolizing enzymes. The data indicate that of the two types of potentially lethal DNA damage which azaserine introduces, carboxymethylated bases and O(6)-methylguanine, the former are repaired by nucleotide excision repair and are a more significant contributor to azaserine lethality in human cells.
Carcinogenesis
1999 Sep
PMID:The cytotoxicity of DNA carboxymethylation and methylation by the model carboxymethylating agent azaserine in human cells. 1046 34
O(6)-alkylguanine-DNA alkyltransferase (AGT) is a suicide protein that corrects DNA damage by alkylating agents and may also serve to activate environmental carcinogens. We expressed human wild-type and two active mutant AGTs in bacteria that lack endogenous AGT and are also defective in nucleotide excision repair, to examine the ability of the AGTs to protect Escherichia coli from DNA damage by different types of alkylating agents and, oppositely, to sensitize cells to the genotoxic effects of dibromoalkanes (DBAs). Control bacteria carrying the cloning vector alone were extremely sensitive to mutagenesis by low, noncytotoxic doses of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). Expression of human wild-type AGT prevented most of this enlarged susceptibility to MNNG mutagenesis. Oppositely, cell killing required much higher MNNG concentrations and prevention by wild-type AGT was much less effective. Mutants V139F and V139F/P140R/L142M protected bacteria against MNNG-induced cytotoxicity more effectively than the wild-type AGT, but protection against the less stringent mutagenesis assay was variable. Subtle differences between wild-type AGT and the two mutant variants were further revealed by assaying protection against mutagenesis by more complex alkylating agents, such as N-ethyl-N-nitrosourea and 1-(2-chloro- ethyl)-3-cyclohexyl-1-nitrosourea. Unlike wild-type and V139F, the triple mutant variant, V139F/P140R/L142M was unaffected by the AGT inhibitor, O(6)-benzylguanine. Wild-type AGT and V139F potentiated the genotoxic effects of DBAs; however, the triple mutant virtually failed to sensitize the bacteria to these agents. These experiments provide evidence that in addition to the active site cysteine at position 145, the proline at position 140 might be important in defining the capacity by which AGTs modulate genotoxicity by environmentally relevant DBAs. The ability of AGTs to activate dibromoalkanes suggests that this
DNA repair enzyme
could be altered, and if expressed in tumors might be lethal by enhancing the activation of specific chemotherapeutic prodrugs.
Carcinogenesis
1999 Nov
PMID:Human O(6)-alkylguanine-DNA alkyltransferase: protection against alkylating agents and sensitization to dibromoalkanes. 1054 10
Vinyl chloride is a known human and animal carcinogen that induces angiosarcomas of the liver. We review here studies on the formation and repair of DNA adducts associated with vinyl chloride and vinyl fluoride in exposed and control rodents and unexposed humans. These vinyl halides induce etheno (epsilon) adducts that are identical to those formed after lipid peroxidation. Of these adducts, N2,3-ethenoguanine (epsilon G) is present in greatest amounts in tissues of exposed animals. After exposure to vinyl chloride for four weeks, epsilon G levels attain steady-state concentrations, such that the amount of newly formed adducts equals the number of adducts that are lost each day. We report the first dosimetry of epsilon G in rats exposed to 0, 10, 100 or 1100 ppm vinyl chloride for five days or four weeks. The number of adducts increased in a supralinear manner. Exposure to 10 ppm vinyl chloride for five days caused a two- to threefold increase in epsilon G over that of the controls, while four weeks' exposure resulted in a fivefold increase. This was confirmed with [13C2]vinyl chloride and by measuring exogenous and endogenous adducts in the same animals. Exposure to 100 ppm vinyl chloride for four weeks caused a 25-fold increase in epsilon G levels over that found in control rats, while exposure to 1100 ppm resulted in a 42-fold increase. The amount of endogenous epsilon G was similar in liver DNA from rats and humans. A comparable response to exposure was seen in rats and mice exposed to 0, 25, 250 or 2500 ppm vinyl fluoride for 12 months. There was a very high correlation between epsilon G levels in rat and mouse liver at 12 months and the incidence of haemangiosarcoma at two years. We were able to demonstrate that the target cell population for angiosarcoma, the nonparenchymal cells, contained more epsilon G than hepatocytes, even though nonparenchymal cells are exposed by diffusion of vinyl halide metabolites formed in hepatocytes. The expression of N-methylpurine-DNA glycosylase mRNA was induced in rat liver after exposure to either 25 or 2500 ppm vinyl fluoride. When this induction was investigated in hepatocytes and nonparenchymal cells, it was found that the latter had only 20% of the N-methylpurine-DNA glycosylase mRNA of hepatocytes, and that only the hepatocytes had induction of this expression after exposure to vinyl fluoride. Thus, the target cells for vinyl halide
carcinogenesis
have much lower expression of this
DNA repair enzyme
, which has been associated with etheno adduct repair.
...
PMID:Formation and repair of DNA adducts in vinyl chloride- and vinyl fluoride-induced carcinogenesis. 1062 6
Mutations in the mismatch DNA repair gene human MutS homologen 2 (hMSH2) are causative for microsatellite instability and
carcinogenesis
in various human tumours, including hereditary nonpolyposis colorectal cancer. Because microsatellite instability has been detected in malignant melanoma, we have investigated hMSH2 in melanocytic tumours. We found strong nuclear immunoreactivity for hMSH2 that was elevated in malignant melanoma and melanoma metastases as compared to acquired nevi. These findings suggest that increased genomic instability in malignant melanoma is associated with elevated protein levels of this
DNA repair enzyme
. hMSH2 is not exclusively regulated by proliferative activity in melanocytes, because there was no correlation between staining patterns of hMSH2 and the proliferation marker Ki-67. In contrast, immunoreactivity scores for hMSH2 and p53 were both upregulated in malignant melanocytic tumours. These findings support the concept that hMSH2 gene expression may be regulated in melanocytes by the p53 protein, as has been reported previously in other tissues. Using the reverse transcription-polymerase chain reaction, we detected strong hMSH2 mRNA expression in each of 8 melanoma cell lines analysed (highest amounts in SK-MEL-25 cells, lowest amounts in MML-I cells). In conclusion, our findings indicate that hMSH-2 may be of importance for genetic stability, tumorigenesis and progression of malignant melanoma.
...
PMID:DNA mismatch repair enzyme hMSH2 in malignant melanoma: increased immunoreactivity as compared to acquired melanocytic nevi and strong mRNA expression in melanoma cell lines. 1193 86
Balanced regulation of DNA double-strand break (DSB) repair is crucial for genetic integrity and cell survival. Cells perform DSB repair either by homologous recombination (HR) or by non-homologous end joining (NHEJ). Either option carries risk for DNA instability. The presence in the cell of the tumour suppressor p53 has been shown to suppress the levels of HR; however, the effect of p53 on DNA EJ is less well understood. Here we demonstrate dramatically increased DNA EJ activity in cell-free extracts from p53(-/-) mouse embryo fibroblasts (MEFs) compared with p53(+/+) MEFs. The addition of wild-type (wt) p53 to p53(-/-) MEFs extracts inhibited DNA EJ in a dose-dependent manner. Binding of wt p53 to DNA ends in vitro protected them from exonuclease attack and inhibited T4
DNA ligase
-dependent EJ. This inhibitory effect was markedly enhanced for p53 R175H, a cancer-derived mutant of p53. In contrast, inhibition was negated in the presence of p53 S15D, a phosphorylation-mimicking mutant protein. Interestingly, p53 S15D stimulated in vitro DNA EJ of the blunt-ended DNA by T4
DNA ligase
. Here we discuss the possibility that, in conjunction with its ability to control levels of HR, p53 may also serve to suppress DNA EJ in cells under normal conditions. This suppression may be associated with DNA-dependent protein kinases or ATM kinases, providing potential crosstalk between major cellular pathways of DNA repair and cell-cycle checkpoint mechanisms.
Carcinogenesis
2002 Apr
PMID:Effect of wild-type, S15D and R175H p53 proteins on DNA end joining in vitro: potential mechanism of DNA double-strand break repair modulation. 1196 Sep 5
To study the expression of
DNA repair enzyme
hMTH1 mRNA and protein in hepatocellular carcinoma (HCC) tissues, tissues adjacent to the cancers, normal liver cells and hepatoma cell lines, and to investigate their function in the progress of HCC, semi-quantitative reverse-transcription polymerase chain reaction (RT-PCR) was employed to examine the expression of hMTH1 mRNA in matched HCC tissues (HT)/surrounding tissues (HST) of HCC, normal liver cell L02 and hepatoma cell lines SMMC7721, HepG2. hMTH1 protein was detected in corresponding HT as well as their HST by immunohistochemistry. Our results showed that the expression level of hMTH1 mRNA in HT was higher than that in HST (t = 2.424, P < 0.05). The expression level of hMTH1 mRNA in two hepatoma cell lines was higher than that in normal liver cell line (F = 6.810, P < 0.01). The expression of hMTH1 mRNA in SMMC7721 was similar to that in HepG2. hMTH1 protein was 88.2% (15 of 17) positive in HT and 82.4% (14 of 17) in HST. The protein level of hMTH1 in HT was correspondingly higher than in their HST (t = 2.18, P < 0.05). It is concluded that hMTH1 mRNA and protein were over-expressed in HCC and hepatoma cell lines. It may be one of the key events during the
carcinogenesis
, progression of HCC and may promote the malignant growth. These results suggest that hMTH1 plays a role in HCC and may be a candidate marker for the diagnosis of HCC.
...
PMID:Expression of DNA repair enzyme hMTH1 mRNA and protein in hepatocellular carcinoma. 1619 84
MGMT is a specific
DNA repair enzyme
that removes alkylating lesions and therefore plays an important role in maintaining normal cell physiology and genomic stability. Loss of expression of MGMT is associated with increased carcinogenic risk and sensitivity to methylating agents in different types of tumours. The expression of MGMT was immunohistochemically assessed in 12 normal oral mucosa, 38 oral leukoplakias and 33 early oral squamous cell carcinomas. The results were correlated with clinicopathological data. We found a significant loss of MGMT protein expression from leukoplakia when compared with early squamous cell carcinoma. We also observed a statistically significant relationship between smoking and the loss of MGMT protein expression. Loss of MGMT expression could be considered an early event in oral
carcinogenesis
with possible prognostic implications.
...
PMID:Loss of expression of DNA repair enzyme MGMT in oral leukoplakia and early oral squamous cell carcinoma. A prognostic tool? 1651 62
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