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)

Regulation of the expression of the DNA repair enzyme O6-methylguanine-DNA methyltransferase (MGMT) has been investigated in a number of human lymphoblastoid cell lines. In a number of Mex- cell lines that do not express methyltransferase activity, CpG sequences in the mgmt gene were hypomethylated with respect to methyltransferase-expressing Mex+ lines. In the cell line GM1953(S), in which the mgmt gene is coregulated with the thymidine kinase and galactokinase genes, reexpression of all three activities was experimentally induced. In this case, the mgmt gene in the nonexpressing cells was found to be hypermethylated and underwent a demethylation at CpG sequences that was coincident with the reappearance of the mgmt mRNA and the three enzyme activities. The simultaneous silencing of three activities in these cells was correlated with an increase in DNA 5-methylcytosine that was widespread throughout the genome. The data indicate that MGMT expression can be controlled epigenetically in human lymphoid cell lines, although the relationship between cytosine methylation and MGMT expression is complex. Furthermore, the rapid alterations in methylation in GM1953(S) cells indicate the existence of signals that can induce widespread and abrupt alterations in cytosine methylation in human cells in culture.
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PMID:Epigenetic silencing of the DNA repair enzyme O6-methylguanine-DNA methyltransferase in Mex- human cells. 139 30

When animals are treated with carcinogenic agents that alkylate O6-guanine residues, the incidence of tumors in specific tissues often relates inversely to the level of the DNA repair enzyme O6-methylguanine-DNA methyltransferase (MGMT) present in the tissue. Similarly, the hypersensitivity to anticancer chloroethylnitrosoureas of some human tumor cell lines is believed to result from their deficiency in MGMT. We have undertaken a comprehensive investigation of MGMT expression in a panel of nine characterized human glioma cell lines. Methyltransferase activity determined by incubating protein extracts of these glioma lines with [3H]methylated DNA ranged from undetectable in six lines (the Mer- phenotype) to greater than 0.8 pmol/mg in two lines (U-373 MG and D-392 MG). MGMT protein was undetectable in Western blots of the Mer- cell extracts probed with specific anti-MGMT monoclonal antibodies. Consistent with these results, steady-state levels of MGMT mRNA, determined by Northern blot analysis, were detectable only in the three Mer+ glioma lines (U-373 MG, D-392 MG, D-263 MG). Southern analysis of EcoRI-digested DNA probed with MGMT cDNA revealed no amplification, rearrangement or deletions of the MGMT gene in any of the glioma cell lines. This is the first report that examines MGMT expression at the biochemical, molecular and genetic levels in a particular tumor type. These studies suggest that transcriptional regulation is the basis of the Mer- phenotype in these malignant human glioma cell lines, since no gross structural or quantitative abnormalities of the MGMT gene were seen in the phenotypically Mer- lines.
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PMID:Expression of O6-methylguanine-DNA methyltransferase in malignant human glioma cell lines. 189 34

The ada gene of Escherichia coli encodes O6-methylguanine-DNA methyltransferase, which serves as a positive regulator of the adaptive response to alkylating agents and as a DNA repair enzyme. The gene which can make an ada-deficient strain of E. coli resistant to the cell-killing and mutagenic effects of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) has been cloned from Salmonella typhimurium TA1538. DNA sequence analysis indicated that the gene potentially encoded a protein with a calculated molecular weight of 39,217. Since the nucleotide sequence of the cloned gene shows 70% similarity to the ada gene of E. coli and there is an ada box-like sequence (5'-GAATTAAAACGCA-3') in the promoter region, we tentatively refer to this cloned DNA as the adaST gene. The gene encodes Cys-68 and Cys-320, which are potential acceptor sites for the methyl group from the damaged DNA. The multicopy plasmid carrying the adaST gene significantly reduced the frequency of mutation induced by MNNG both in E. coli and in S. typhimurium. The AdaST protein encoded by the plasmid increased expression of the ada'-lacZ chromosome fusion about 5-fold when an E. coli strain carrying both the fusion operon and the plasmid was exposed to a low concentration of MNNG, whereas the E. coli Ada protein encoded by a low-copy-number plasmid increased it about 40-fold under the same conditions. The low ability of AdaST to function as a positive regulator could account for the apparent lack of an adaptive response to alkylation damage in S. typhimurium.
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PMID:Cloning and characterization of the Salmonella typhimurium ada gene, which encodes O6-methylguanine-DNA methyltransferase. 190 55

Mex+ human lymphoma cell lines contain O6-methylguanine-DNA methyltransferase, a DNA repair enzyme that undergoes suicide inactivation on interaction with its substrate. The cells are therefore competent to remove the alkylation lesion O6-methylguanine from their DNA. However, several repair-deficient lymphoma cell lines (Mex-) are also known. It is shown here that Mex+ cells can be converted temporarily to a Mex- phenotype by growth in nontoxic concentrations of free O6-methylguanine. The depletion of methyltransferase activity is not a result of O6-methylguanine incorporation into DNA and subsequent demethylation by the enzyme. It is proposed that O6-methylguanine is mistakenly incorporated into tRNA molecules by means of a post-transcriptional ribosyl transfer reaction. The demethylation of such bases in tRNA has been demonstrated by using bacterial and human DNA repair enzymes. The existence of such a subversive repair of a methylated base in tRNA raises the possibility of competition between DNA and RNA for cellular DNA repair enzymes. Furthermore, it is proposed that the known aberrant methylation of tRNA in certain transformed cells, together with subversive tRNA repair, could account for the Mex- phenotype.
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PMID:Possible depletion of a DNA repair enzyme in human lymphoma cells by subversive repair. 386 Aug 61

The inducible resistance to alkylation mutagenesis and killing in Escherichia coli (the adaptive response) is controlled by the ada gene. The Ada protein acts both as a positive regulator of the response and as a DNA repair enzyme, correcting premutagenic O6-alkylguanine in DNA by suicidal transfer of the alkyl group to one of its own cysteine residues. We have determined the DNA sequence of the cloned ada+ gene and its regulatory region. The data reveal potential sites of ada autoregulation. Amino acid sequence determinations show that the active center for the O6-methylguanine-DNA methyltransferase is located close to the polypeptide COOH terminus and has the unusual sequence -Pro-Cys-His-, preceded by a very hydrophobic region. These same structural features are present at the active site of thymidylate synthase, suggesting a common chemical mechanism for activation of the cysteine.
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PMID:Active site and complete sequence of the suicidal methyltransferase that counters alkylation mutagenesis. 388 9

Lipid peroxidation aldehydes of the 4-hydroxy-alpha, beta-unsaturated type, as well as the tobacco-smoke related alpha, beta-unsaturated aldehyde, acrolein, were highly cytotoxic and decreased the intracellular thiol content in cultured human bronchial fibroblasts after treatment with micromolar concentrations. In comparison, formaldehyde and acetaldehyde were less toxic and 100- to 300-fold higher doses were required to affect cell survival or thiol levels. The unsaturated aldehydes also markedly inhibited the DNA repair enzyme O6-methylguanine-DNA methyltransferase known to have a cysteine residue in its active site, but had no effect on the activity of uracil-DNA glycosylase. Our results indicate that reactive aldehydes of either exogenous or endogenous origin have direct cytotoxic effects and may also make cells more susceptible to other toxic chemicals due to an impairment in cellular defense mechanisms, e.g., DNA repair and detoxification by systems requiring glutathione.
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PMID:Cytotoxicity, thiol depletion and inhibition of O6-methylguanine-DNA methyltransferase by various aldehydes in cultured human bronchial fibroblasts. 406 50

Human tumor cell strains with differing responses to MNNG damage in their DNA were treated with precipitates of the plasmids pSV2gpt or pSV2neo . Transfected clones were selected on the basis of the drug resistance which each plasmid confers. Cells with different drug resistances were fused and hybrids were selected in medium requiring the expression of both markers. Hybrids produced by fusion of two different strains hypersensitive to MNNG-produced cytotoxicity and which lack the DNA repair enzyme O6-methylguanine-DNA methyltransferase ( O6MT ) failed to show complementation, suggesting that these strains share a common genetic defect. Hybrids from fusions of each of three strains containing O6MT activity with the same strain lacking O6MT activity were of surprising character. In one case the hybrid had resistance to MNNG-produced cell killing and O6MT activity similar to the parent strain possessing O6MT activity. In a second case, the hybrid had greater resistance to MNNG produced cytotoxicity than either parent strain although the level of O6MT activity was not higher. In a third case, the hybrid had little or no O6MT and as great hypersensitivity to MNNG-produced cytotoxicity as the parent strain lacking O6MT activity. We conclude that the survival of human tumor cell strains after MNNG-produced DNA damage is controlled by several genes. Even individual repair enzymes, like O6MT , are likely to be regulated by the interaction of these genes.
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PMID:Hybrids between human tumor cell strains differing in repair of MNNG-produced DNA damage. 632 8

The DNA repair enzyme O6-methylguanine-DNA methyltransferase has been used as a reagent to analyse the initial reaction sites of alkylating agents such as chloroethylnitrosourea that cross-link DNA. The transferase can be employed for this purpose because it removes substituted ethyl groups from DNA, as shown by its ability to act on O6-hydroxyethylguanine residues in DNA. The enzyme counteracts the formation of interstrand cross-links induced by bis-chloroethylnitrosourea, but not those induced by nitrogen mustard. Once formed, chloroethylnitrosourea-induced cross-links are not broken by the enzyme. In agreement with deductions from experiments with living cells, it is concluded that chloroethylnitrosourea act by forming reactive monoadducts at the O6 position of guanine and/or the O4 position of thymine, which subsequently generate -CH2CH2- bridges to the complementary DNA strand. A new method for quantitating interstrand cross-links in DNA has been employed.
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PMID:Cross-linking of DNA induced by chloroethylnitrosourea is presented by O6-methylguanine-DNA methyltransferase. 635 62

DNA mismatch binding in vitro, resistance to DNA methylation damage, and spontaneous mutation rates were examined in human colorectal adenocarcinoma cell lines. Of 11 cell lines, 3 (DLD1, HCT15, and LoVo) were defective in mismatch binding. All three lines had a mutator phenotype. These properties indicate that DLD1 and HCT15 may, like LoVo, carry mutations in the mismatch recognition protein hMSH2. Mismatch binding was normal in the remaining eight lines, including HCT116 in which a second mismatch repair protein, hMLH1, is defective. Two lines, SW620 and SW48, did not express detectable levels of the DNA repair enzyme O6-methylguanine-DNA methyltransferase. SW620 exhibited the expected sensitivity to N-methyl-N-nitrosourea. In contrast, SW48 cells were highly resistant to N-methyl-N-nitrosourea and also slightly to methyl methanesulfonate, indicating that they are tolerant to DNA methylation damage. SW48 exhibited the spontaneous mutator phenotype and microsatellite instability that are hallmarks of a defect in mismatch repair. This cell line provides evidence for the association between methylation tolerance and defective mismatch correction in human colorectal carcinoma cells. The properties of methylation-tolerant, mismatch repair-defective cells identify possible selective pressures that might facilitate the natural selection of mismatch repair-defective tumors.
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PMID:DNA mismatch binding defects, DNA damage tolerance, and mutator phenotypes in human colorectal carcinoma cell lines. 775 80

Adducts of O6-alkylguanine in DNA that are induced by cytotoxic, carcinogenic or mutagenic alkylating agents can be removed by the DNA repair enzyme O6-methylguanine-DNA methyltransferase (MGMT). Human tumor cell lines that do not express this enzyme (Mer-) are hypersensitive to the effects of such alkylating agents, although the molecular basis of MGMT gene suppression is not yet understood. Previous studies suggested that Mer- cells deficient in this enzyme lack neither the gene nor the trans-acting factors necessary for normal transcription. Methylation of CpG dinucleotides is an attractive mechanism to account for suppression of the MGMT gene; however, there have been reports of both direct and inverse correlations between methylation and MGMT expression. We previously demonstrated an inverse correlation between methylation at a single SmaI site in the human MGMT promoter and gene expression. To substantiate this observation, we examined additional CpGs in the promoters of three Mer+ and three Mer- cell lines, using rare methylation-sensitive restriction sites, and then sought to identify the region where methylation correlated with gene expression. Six CpGs in the region from -245 bp to +225 bp (relative to the transcription start site) were completely unmethylated in all Mer+ cells, whereas in Mer- cells were at least partially methylated. The methylation status of CpGs further upstream did not correlate with MGMT expression. We conclude, therefore, that the association between CpG methylation and suppressed MGMT gene activity extends to sites other than SmaI but is limited to a core region of the promoter.
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PMID:Localization of methylation sites in the human O6-methylguanine-DNA methyltransferase promoter: correlation with gene suppression. 778 59

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