EC:1.11.1.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.6 (catalase)
55,569 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 2-nitroimidazoles have been used clinically to radiosensitize resistant hypoxic cells, but a dose-limiting peripheral neuropathy has restricted their therapeutic effectiveness. A model compound, 1-methyl-2-nitroimidazole (INO2), was used to investigate the possible role of oxidative stress in this normal tissue toxicity. Chinese hamster ovary (CHO) cells were 10-15 times more resistant to 20 mM INO2 under aerobic than hypoxic conditions. In comparison, a pair of transformed rat embryo fibroblasts (ER17-1wtp53 and ER12L5mtpP53), differing in their p53 genotype, were approximately 3- to 4-fold more sensitive than Chinese hamster ovary cells to INO2 under aerobic conditions, but had the same sensitivity as Chinese hamster ovary cells under hypoxic conditions. These results are consistent with an earlier hypothesis that the mechanism of aerobic toxicity is different from that of hypoxic toxicity (nitroreduction) and show that neither toxicity is dependent on cellular p53 status. There was an increase in the production of reactive oxygen intermediates and a decrease in the antioxidant glutathione following aerobic exposure to INO2, which correlated with cell survival in all three cell lines. No evidence of reductive adducts of the 2-nitroimidazole 2-(2-nitro-1H-imidazol-1-yl)-N-(2,2,3,3,3-pentafluoropropyl)acetam ide (EF5) was found by immunofluorescent techniques in aerobic cells. Differing activities of the antioxidant enzymes superoxide dismutase and catalase could be correlated with INO2 aerobic cytotoxicity. DNA strand breaks, as measured by the comet assay, paralleled the appearance of INO2 aerobic cytotoxicity in all three cell lines. Taken together, these results strongly support the conclusion that the aerobic toxicity of IN02 is due to active oxygen species created by futile redox cycling of the parent compound.
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PMID:Oxidative stress and 1-methyl-2-nitroimidazole cytotoxicity. 974 71

The DNA repair protein O6-methylguanine-DNA methyltransferase (MGMT) is inducible by genotoxic stress. MGMT induction results from transcriptional activation of the MGMT gene which is a specific response to DNA damage. A possible factor involved in triggering MGMT induction might be p53, because both p53 and MGMT are activated by DNA breaks. To study the effect of p53 on induction of the MGMT gene, we compared the presence of functional wild-type (wt) and mutant p53 with MGMT expression level in various mouse fibroblasts and rat hepatoma cell lines upon genotoxic treatment. Cells which responded to ionizing radiation (IR) by MGMT induction displayed functional p53, whereas in cells not expressing wt p53, MGMT induction was not observed. Also, the cloned MGMT promoter was inducible by IR upon transfection into p53 wt cells, but not in cells deficient for p53. Thus, expression of wt p53 appears to be required for induction of MGMT mRNA and protein by IR. On the other hand, transfection of a MGMT-promoter-CAT construct together with p53 (either wt or mutant) in cells expressing wt p53 markedly reduced the basal activity of the MGMT promoter whereas cotransfection with a p53 antisense construct slightly increased MGMT promoter activity. Furthermore, cotransfection of MGMT promoter with wt or mutant p53 in p53 wt cells reduced radiation evoked MGMT promoter induction. Thus, transfection mediated high level expression of p53 has inhibitory effect both on basal MGMT promoter activity and its activation by IR. The results give evidence for involvement of p53 in DNA damage-induced MGMT promoter activation.
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PMID:p53 is involved in regulation of the DNA repair gene O6-methylguanine-DNA methyltransferase (MGMT) by DNA damaging agents. 978 1

We describe functional binding sites for the tumor suppressor p53 and for NFkappaB residing in the promoter of the novel human early response gene p22/PRG1 (IEX-1/DIF-2). Gel shift and supershift assays demonstrate binding of p53 and NFkappaB to their corresponding sites in vitro. CAT-reporter gene assays show transactivation of the human p22/PRG1 promoter by p53 in Hep3B cells stably transfected with a temperature-sensitive mutant p53, but not in p53-deficient Hep3B cells. TNF alpha induced NFkappaB dependent transactivation was shown in HepG2 cells or in 818-4 pancreatic cancer cells. These data imply that human p22/PRG1 is a target gene for p53 and NFkappaB involved in growth regulation and stress response.
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PMID:The promoter of human p22/PACAP response gene 1 (PRG1) contains functional binding sites for the p53 tumor suppressor and for NFkappaB. 978 66

In the cellular response to genotoxic stress, cell cycle checkpoint and apoptosis are considered to be two of the major biological events in maintaining genomic stability. The tumor suppressor p53 has been shown to play critical roles in these stress-induced cellular responses at least in part through the activation of its down-stream genes, such as p21CIP1/WAF1, GADD45 and BAX. In addition, p53 has been found to down-regulate the expression of BCL-2, which is able to block apoptosis induced by both p53-dependent and independent signaling events. In this report, we have found that increased expression of Bcl-2 protein in the human Burkitt's lymphoma WMN cell line suppressed apoptosis induced by different DNA-damaging agents. The induction of p53-regulated genes including GADD45, p21CIP1/WAF1 and BAX by genotoxic stress was substantially reduced in cells expressing high levels of Bcl-2 protein. Furthermore, Bcl-2 protein was shown to specifically suppress the p53-mediated transactivation of p21CIP1/WAF1 and PG13-CAT, which is a typical p53-binding-site reporter construct. Similarly, the inhibitory effect of Bcl-2 protein was seen in a GADD45 promoter reporter construct after treatment with methylmethane sulfonate or UV-radiation. These results indicate that in addition to its apoptosis-suppressing activity, Bcl-2 protein is able to inhibit transactivation of p53-regulated genes, which function in multiple important cellular responses to genotoxic stress, including the control of cell cycle checkpoints, cell growth suppression and DNA repair.
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PMID:Inhibitory effect of Bcl-2 on p53-mediated transactivation following genotoxic stress. 992 86

In this study we describe a novel putative p53-responsive gene, designated p22/PACAP response gene 1 (PRG1), recently identified as a proliferation-associated early-response gene in rats. By means of electrophoretic mobility shift assay and CAT-reporter gene assay, we could demonstrate that the p53 binding site residing in the promoter of p22/PRG1 is functional in vitro. Furthermore, in clone 6 cells expression of p22/PRG1 is induced in parallel to p21/Waf1 under conditions permitting mutant p53 to adopt wild-type configuration. An increase of p22/PRG1 transcription was also observed in gamma-irradiated rat splenocytes, which undergo p53-dependent apoptosis. Our findings demonstrate that p22/PRG1 fulfills all essential criteria as a p53 target gene and might be implicated in p53-dependent apoptosis.
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PMID:p22/PACAP response gene 1 (PRG1): a putative target gene for the tumor suppressor p53. 992 93

Metallocene complexes containing vanadium induce apoptosis in human cancer cells by an as yet unknown mechanism and may therefore be useful as a new class of cytotoxic anticancer drugs. Ultrastructural studies showing the formation of metallocene-DNA complexes prompted the hypothesis that their mechanism of action may resemble the DNA damage induced by cisplatin. Molecular genotoxicity testing provides insights into the mechanisms of action of new chemotherapeutic agents. Therefore, we determined the effects of three cytotoxic vanadocene complexes, vanadocene dichloride, vanadocene dithiocyanate, and vanadocene dioxycyanate, on genomic stability using the yeast DEL recombination assay and transcriptional activation of genotoxic stress-specific promoters in human HepG2 cells using the CAT-Tox(L) assay. Cisplatin caused an 11-fold increase of recombination frequency in yeast and induced transcriptional activation of the DNA damage-associated promoters such as the minimum promoter containing p53 response elements and the GADD45 promoter in addition to activating the promoters for c-fos, heat shock protein 70, metallothionine IIa, and the minimum promoter containing nuclear factor kappa(kappa)B response elements. In contrast to cisplatin, vanadocene complexes did not increase the DEL recombination frequency in yeast nor did they activate any of the DNA damage-associated promoters in HepG2 cells. Vanadocene complexes triggered activation of the c-fos promoter without affecting the minimum promoter containing p53 response elements or the GADD45 promoter. These results indicate that the apoptotic signal of vanadocene complexes is not triggered by primary DNA damage and it does not require p53 induction, thereby disproving the hypothesis that it mechanistically resembles the cytotoxic action of cisplatin.
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PMID:Molecular genotoxicity profiles of apoptosis-inducing vanadocene complexes. 993 Dec 82

Quercetin, one of flavonoids, has been reported to be carcinogenic. There have been no report concerning carcinogenicity of kaempferol and luteolin which have structure similar to quercetin. DNA damage was examined by using DNA fragments obtained from the human p53 tumor suppressor gene. Quercetin induced extensive DNA damage via reacting with Cu(II), but kaempferol and luteolin induced little DNA damage even in the presence of Cu(II). Excessive quercetin inhibited copper-dependent DNA damage induced by quercetin. Bathocuproine, a Cu(I)-specific chelator, catalase and methional inhibited the DNA damage by quercetin, whereas free hydroxyl radical scavengers did not. Site specificity of the DNA damage was thymine and cytosine residues. The site specificity and the inhibitory effects suggested that DNA-copper-oxygen complex rather than free hydroxyl radical induced the DNA damage. Formation of 8-oxodG by quercetin increased extensively in the presence of Cu(II), whereas 8-oxodG formation by kaempferol or luteolin increased only slightly. This study suggests a good relationship between carcinogenicity and oxidative DNA damage of three flavonoids. The mechanism of DNA damage by quercetin was discussed in relation to the safety in cancer chemoprevention by flavonoids.
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PMID:Mechanism of oxidative DNA damage induced by quercetin in the presence of Cu(II). 1008 21

Synergism between exposure to chemical carcinogens and infection with the hepatitis B virus (HBV) has been implicated in the high incidence of hepatocellular carcinoma. In this study we report that the HBV protein HBx, inhibits cellular DNA repair capacity in a p53-independent manner. Two alternative assays were used: the host cell reactivation assay, which measures the cell's capacity to repair DNA damage in a reporter plasmid, and unscheduled DNA synthesis, which measures the overall DNA repair capacity in damaged cells. Two p53-proficient cell lines, the hepatocellular carcinoma cell line HepG2 and liver epithelial cell line CCL13, were co-transfected with the pCMV-HBx reporter plasmid and the pCMV-CAT plasmid damaged with UVC radiation. Compared with cells transfected with control plasmid, the presence of HBx resulted in approximately 50% inhibition of the cell's capacity to reactivate CAT activity of UVC-damaged plasmid, and approximately 25% inhibition of unscheduled DNA synthesis in cells treated with either aflatoxin B1 epoxide or UVC radiation. Using the p53-deficient cell line Saos-2, we demonstrated that expression of HBx also resulted in diminished overall cellular DNA repair of damage induced by both aflatoxin B1 epoxide and UVC radiation, using both the host cell reactivation and unscheduled DNA synthesis assays. In summary, this study provides evidence for p53-independent regulation of DNA repair by HBx.
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PMID:Downregulation of DNA excision repair by the hepatitis B virus-x protein occurs in p53-proficient and p53-deficient cells. 1019 May 65

The activities of antioxidant enzymes, and the expression of p21(WAF1) and p53 proteins were studied at different times after subculture during proliferation and differentiation phases. Two human melanoma cell lines were used: IPC182, which is a non-differentiating cell line, and IGR221, which spontaneously differentiates at the end of the exponential growth phase, as evidenced by a marked increase of melanin content and tyrosinase activity. In the two cell lines, the slowing of proliferation coincided with an increase in the activity and amount of immunoreactive superoxide dismutases (SOD1 and SOD2), and a decrease of catalase and glutathione peroxidase activities, and of the glutathione content. The levels of p21WAF1 and p53 proteins were found to be lower in confluent than in proliferative cells. Several parameters were modified only during the differentiation phase of IGR221 cells; in these cells the increase of tyrosinase activity was highly correlated with the increase in SOD2, GST, glutathione reductase, and G6PD activities. The level of glutathione was found to be lower in differentiated IGR221 than in non-differentiated IPC182 cells. These results suggest that p21WAF1 and p53 proteins are not involved in the spontaneous differentiation process of melanoma cells, and that abnormal regulation of the cell cycle inhibition pathway occurred in these cells. The results sustain the hypothesis that alterations of antioxidant enzyme expression are involved in the control of proliferation and differentiation of melanoma cells. Alterations of SOD2 activity may be of particular importance, since variations are observed with both cell growth and cell differentiation.
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PMID:Modulation of antioxidant enzymes p21WAF1 and p53 expression during proliferation and differentiation of human melanoma cell lines. 1023 48

We studied the tissue-specific expression of the p53 gene in different parts of the intestine of mice treated with low doses of a carcinogen and exposed to different p53 antibodies. The human p53 promoter-CAT transgenic mice were immunized with different p53 antibodies (monoclonal - PAb 421 and DO1, and polyclonal - H-p53 and anti-soluble p53 IgG) and then exposed to low doses of dimethylhydrazine (DMH). Enzymatic CAT activity was determined in the ileum and colon 8 weeks later after the final injection of DMH. Expression of the p53 transgene in the normal ileum was twice as high as in the colon. Treatment with DMH significantly decreased the expression of the p53 transgene both in the ileum (from 18% to 100%) and in the colon (from 10% to 52%). Vaccination of mice protected at least in part such a decrease. The most effective results were found after exposure of mice to polyclonal H-p53 and to a lesser extent to anti-p53 IgG. No difference was found in the effects of antibodies on the small and large intestines. We concluded that polyclonal antibodies were more effective than monoclonal ones in protection against anti-p53 action of DMH. The observation of these effects may make it possible to explain the higher antitumor activity of polyclonal antibodies.
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PMID:Tissue-specific expression of the p53 tumor-suppressor gene in the intestine of transgenic mice exposed to DMH and p53 antibodies. 1037 75

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