DrugBank:APRD00249 - FACTA Search

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Query: DrugBank:APRD00249 (Mutagen)
5,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Induction of 8-azaguanine-resistant mutation, DNA single-strand breaks, and chromosome aberrations by treatment with ethyl methanesulfonate (EMS), N-methyl-N'nitro-N-nitrosoguanidine (MNNG), nitrogen mustard hydrochloride (HN2), or 4-nitroquinoline 1-oxide (4-NQO) was compared under similar experimental conditions using cultured FM3A cells from a C3H mouse mammary carcinoma. All the chemicals induced 8-azaguanine-resistant mutations and chromosome aberrations in a dose-dependent manner; a good correlation between the two activities was demonstrated. An alkaline sucrose gradient method demonstrated that DNA single-strand breaks were induced only in a high dose range by 1- and 24-hr treatment with the chemicals. One exception was that a 1-hr treatment with HN2 produced an anomalous sedimentation pattern. These data suggest that caution is necessary for the interpretation of results obtained by the alkaline sucrose gradient analysis, and that examination of mutagenicity and chromosome aberrations is more feasible as screening procedures for potential mutagens than analysis of DNA single-strand breaks.
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PMID:Comparison of mutagenicity and inducibility of DNA single-strand breaks and chromosome aberrations in cultured mouse cells by potent mutagens. 41 23

We examined the relationship between intracellular levels of glutathione (GSH), glutathione-S-transferase (GST) activity, and the kinetics of DNA cross-links induced by the bifunctional alkylating drugs melphalan (MLN), chlorambucil (CLB), and mechlorethamine (HN2) in a rat mammary carcinoma cell line (WT) and in a subline selected in vitro for primary resistance to MLN (MLNr, 16-fold resistance). MLNr cells exhibit a 2-fold increase in intracellular GSH concentration and an approximately 5-fold increase in GST activity as compared with the parent cells. They are cross-resistant to a variety of drugs, including CLB (6-fold) and HN2 (14-fold). Treatment of WT cells with 30 microM MLN or CLB induced a significant accumulation of DNA-DNA cross-links for up to 8 h, which decreased over a 24-h period. In MLNr cells, no significant cross-link formation was induced by either MLN of CLB at any time between 0 and 24 h. Doses of up to 100 microM MLN failed to induce cross-links in MLNr cells. Formation of cross-links was observed immediately after treatment with HN2 in both cell lines and was followed by a subsequent decrease during a 24-h incubation in drug-free medium. At an equimolar concentration (30 microM), the numbers of HN2-induced cross-links were significantly lower in MLNr cells than in WT cells. However, treatment of MLNr cells with 60 microM HN2 resulted in cross-link levels similar to those obtained using 30 microM HN2 in WT cells. The 35% decrease in MLN accumulation observed in MLNr cells could not entirely explain the absence of cross-links, since thin-layer chromatographic analysis demonstrated that both cell lines accumulate a significant amount of MLN and metabolize it to the same extent. Significant amounts of MLN were also detected in nuclei isolated from WT and MLNr cells that had been treated with 30 microM [14C]-MLN. Intracellular depletion of GSH by a nontoxic concentration of L-buthionine-(S, R)-sulfoximine (BSO, 100 microM; about 70% GSH depletion) significantly sensitized MLNr cells to MLN and increased cross-link formation. A nontoxic concentration (50 microM) of ethacrynic acid (EA, an inhibitor of GST showing some specificity for Yc/Yp subunits) also sensitized MLNr cells to MLN and increased cross-link formation. Our data demonstrate that both EA and BSO are effective modulators of nitrogen mustard cytotoxicity in tumor cells resistant to alkylating drugs.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Nitrogen mustard-DNA interaction in melphalan-resistant mammary carcinoma cells with elevated intracellular glutathione and glutathione-S-transferase activity. 150 71

Melanins, pigments of photoprotection and camouflage, are very photoreactive and can both absorb and emit active oxygen species. Nevertheless, black skinned individuals rarely develop skin cancer and melanin is assumed to act as a solar screen. Since DNA is the target for solar carcinogenesis, the effect of melanin on Ultraviolet (UV)-induced thymine lesions was examined in mouse melanoma and carcinoma cells that varied in melanin content. Cells prelabeled with 14C-dThd were irradiated with UVC; DNA was isolated, purified, degraded to bases by acid hydrolysis and analyzed by HPLC. Thymine dimers were detected in all of the extracts of irradiated cells. Melanotic and hypomelanotic but not mammary carcinoma cell DNA from irradiated cells contained hydrophilic thymine derivatives. The quantity of these damaged bases was a function of both the UVC dose and the cellular melanin content. One such derivative was identified by gas chromatography-mass spectroscopy as thymine glycol. The other appears to be derived from thymine glycol by further oxidation during acid hydrolysis of the DNA. The finding of oxidative DNA damage in melanin-containing cells suggests that melanin may be implicated in the etiology of caucasian skin cancer, particularly melanoma. Furthermore, the projected decrease in stratospheric ozone could impact in an unanticipated deleterious manner on dark-skinned individuals.
Environ Mol Mutagen 1990
PMID:Melanin photosensitizes ultraviolet light (UVC) DNA damage in pigmented cells. 237 74

Mouse monoclonal antibody (MAb) 3F8E3 (IgG3k) was developed against the head and neck cancer cell line LICR-LON-HN2. Subjected to indirect immunofluorescence, the MAb reacted exclusively with SCC cell lines and showed no reactivity with normal or transformed mouse and human non-SCC cell lines and hematopoietic cell lines. The radiolabelled MAb showed an affinity constant of 1.8 x 10(8) M-1 with HN2 cells and identified 2.07 x 10(4) sites/cell by Scatchard analysis. It identified 2 peptides from membrane extracts of HN2 cells by Western blotting. Avidin-biotin-complexed immunoperoxidase staining on cryostat sections of tumors from various tissues revealed that 3F8E3 reacted mainly with the membrane antigens of well differentiated SCC cells of oral cavity, larynx, esophagus, lung, uterine cervix, metastatic nodes of patients with oral cancer, and dysplastic cells in oral leukoplakia. The MAb did not react with poorly differentiated cells of Ca esophagus, adenocarcinoma of breast, stomach and colon, renal-cell carcinoma and soft-tissue sarcoma.
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PMID:Monoclonal antibody against human squamous-cell-carcinoma-associated antigen. 258 66

CGP 6809 is a water-soluble nitrosourea derivative with quite distinct chemical and biological properties as compared with the well-known representatives of this class of compounds. It is related to the antibiotic streptozotocin, from which it is distinguished in the structure of the sugar moiety and the position of the methylnitrosourea residue. CGP 6809 possesses practically the same alkylating potential as streptozotocin; however, its carbamoylating activity is comparable with that of CCNU. In contrast to other nitrosourea derivatives, CGP 6809 showed relatively little activity in murine leukemias but was markedly active in solid transplantable melanomas (Harding-Passay, B16), in the 11095 prostate carcinoma, and in a substrain of Yoshida hepatoma (AH 7974) resistant to BCNU and CCNU. In the Ehrlich and Yoshida ascitic tumors complete responses were seen with no toxic death. Dose-dependent activity was found in the human lung carcinoma MBA 9812 and almost complete growth inhibition was achieved in the human melanoma WM 47 by both the oral and parenteral routes of administration. However, mammary tumor lines (Ca 755, 2661/61, R-3230AC), the Guerin-T8 uterus epithelioma, and the Rous sarcoma/S-R proved to be relatively refractory to this drug. This was also the case for the Lewis lung carcinoma implanted i.m. or s.c. However, development of lung metastases was markedly inhibited. Combination therapy using CGP 6809 with cyclophosphamide, 5-fluorouracil, or chlorambucil in the same model led to partial responses of the primary tumor as well as almost total eradication of lung metastases.
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PMID:CGP 6809, a sugar-containing nitrosourea derivative: pharmacological and physicochemical properties. 271 56

A homemade rust-proof cutting fluid (RPCF) used in China was tested for carcinogenicity by an in vivo chronic experiment and for mutagenicity by the Ames Salmonella microsomal assay. Undiluted and threefold water-diluted fluid were given as drinking water to groups of young adult Wistar rats for 2 years. The treatment induced 11/40 malignant tumors with 9/40 acinar adenocarcinomas of the pancreas in the high-dose group. Simultaneous administration of ascorbic acid dissolved in the undiluted fluid at 2 g acid per 1 g sodium nitrite resulted in 1/40 pancreatic carcinoma. The results of the Ames test showed that the technical RPCF was mutagenic to TA100 with or without metabolic activation. It was concluded that the homemade RPCF, which is comprised of sodium nitrite, triethanolamine, and polyethylene glycol, may form direct-acting mutagen(s) upon storage and form, in vivo, e.g., nitrosamines that caused acinar pancreatic carcinoma in Wistar rats. Simultaneous administration of ascorbic acid is suggested for the protection of workers exposed to the rust-proof cutting fluid.
Teratog Carcinog Mutagen 1988
PMID:Mutagenicity and carcinogenicity studies of homemade "rust-proof cutting fluid". 289 23

In the Walker 256 rat mammary carcinoma cell line, WR, resistance to nitrogen mustards (NM) is accompanied by collateral sensitivity to chloroethylnitrosoureas (CENUs). DNA-interstrand cross-links, DNA-protein cross-links, and sister chromatid exchange (SCE) induction were assayed in WR and the parent cell line (WS) after treatment with nitrogen mustard (HN2), phosphoramide mustard (PM), chlorozotocin (CLZ) and 1-(2-chloroethyl)-3-cyclohexyl-1-nitrosourea (CCNU). Treatment of cells with HN2 caused extensive levels of cross-links, approximately 50% of which were DNA-interstrand, equal in both WR and WS, whereas PM caused no detectable cross-links in either cell line. CLZ induced low levels of DNA-interstrand cross-links, similar in WR and WS, but no DNA-interstrand cross-links could be detected in either cell line after treatment with CCNU. Both CLZ and CCNU induced low levels of DNA-protein cross-links in both cell lines, though higher in WR than WS. There was no difference in the rate of removal of HN2-induced DNA-interstrand or DNA-protein cross-links or total CLZ-induced cross-links by the two cell lines, suggesting that differential repair was not relevant to the expression of resistance. Both HN2 and PM caused more SCEs in WS than in WR, whereas CLZ and CCNU induced more SCEs in WR. Thus, NM-induced SCEs were related to cell killing but not cross-linking, whilst CENU-induced SCEs were related to cell killing and DNA-protein but not DNA-interstrand cross-links. Furthermore, the collateral sensitivity of WR cells to CENUs was not due to the differential induction of DNA-interstrand cross-links or repair of total cross-links, or repair of total cross-links, although higher levels of DNA-protein cross-links occurred in WR, and these may be either a cause or a consequence of increased susceptibility of these cells to CENUs. Presumably NMs and CENUs have several distinct and separate macromolecular targets which result in differential cell killing. It is concluded that a range of lesions occurred after treatment of WR and WS cells with either NMs or CENUs and that, in these cell lines, there is no simple correlation between drug-induced cross-linking, SCE induction and cytotoxicity.
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PMID:A comparative analysis of drug-induced DNA effects in a nitrogen mustard resistant cell line expressing sensitivity to nitrosoureas. 293 89

Survival curves and dose escalation studies of four representative human tumor cell lines exposed to the various alkylating agents are presented. With HN2, at a level of one log of cell kill there was a fivefold range in drug concentration required to achieve this degree of cell kill among the cell lines, from 4.5 microM for the SL6 lung adenocarcinoma to 22 microM for the SW2 small-cell lung carcinoma. Four logs of SCC-25 squamous carcinoma cells were killed by 100 microM CDDP; however, there was only about one log of SL6 cells killed by 500 microM CDDP. To kill one log of G3361 melanoma cells required 24 microM 4-HC and to kill one log of SCC-25 cells required 24 microM, approximately a 16-fold difference. The curves for cell kill by L-PAM appeared to be biphasic, with a break at about 100 microM. There was about a threefold range in drug concentration required to achieve one log of cell kill with L-PAM, from 60 microM in the SCC-25 cell line to 18 microM in the SW2 line. To kill one log of SCC-25 cells required 295 microM BCNU and to kill one log of SW2 cell required 120 microM, about a 2.5-fold difference. The range of maximally tolerated HN2 concentrations were from 1200 microM for the SL6 cell line, 48 times the initial concentration, to 300 microM for the SCC-25 line, 16 times the initial concentration. The G3361 line tolerated the highest level of CDDP, 1900 microM, 48 times the initial concentration. The SCC-25 line, on the other hand, tolerated only 600 microM, 30 times the initial concentration. The SL6 cell line maximally tolerated 36 times the initial concentration of 4-HC (1450 microM), whereas the SCC-25 cell line tolerated only 18 times the initial concentration (720 microM). The G3361 melanoma tolerated 1555 microM, 30 times the initial concentration of L-PAM, and the SCC-25 cell line tolerated 700 microM, 14 times the initial concentration. The SL6 cell line tolerated the highest concentration of BCNU, 4200 microM, 24 times the initial concentration. The SCC-25 cell line tolerated 1450 microM, 8 times the initial concentration. In all cases, the SCC-25 cell line was least able to tolerate exposure to increasing concentrations of alkylating agents. The SL6 and G3361 cell lines showed the greatest tolerance for increasing concentrations of alkylating agents.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Development of alkylating agent-resistant human tumor cell lines. 337 Jul 36

Mutagen sensitivity is a constitutional factor which may be used to identify head-and-neck squamous-cell carcinoma (HNSCC) patients at high risk for the development of multiple primary tumors (MPT). In this retrospective study, mutagen sensitivity was measured in HNSCC patients with a single primary tumor (SPT), HNSCC patients who have already developed MPT and control subjects with no tumor history. In vitro, lymphocytes were challenged with bleomycin and chromosomal damage was quantified by scoring chromatid breaks of 100 cells. A significant difference in the mean number of breaks per cell (b/c) was found between SPT patients and controls. Patients with MPT showed a significantly higher mean b/c value than SPT patients. This increase in mutagen sensitivity in HNSCC patients was not related to well-known cancer risk factors such as age, or life-style factors such as smoking and alcohol drinking habits. In addition, tumor site but not tumor stage was found to be related to mutagen sensitivity. On the basis of our findings, we propose that mutagen sensitivity is not an independent risk factor but a constitutional factor which reflects the way in which genotoxic compounds are dealt with and is thereby directly related to cancer risk.
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PMID:Increased mutagen sensitivity in head-and-neck squamous-cell carcinoma patients, particularly those with multiple primary tumors. 750 76

Male F344 rats were fed N[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT) for up to 4 wk, then given the basal diet with or without 5% sodium saccharin for up to 100 wk. In a previous study, we demonstrated point mutations in codons 12 and 61 of Ha-ras gene among eleven transitional cell carcinomas (TCC), one undifferentiated carcinoma, and two sarcomas of the urinary bladder (Mol Carcinogen 3:210-215, 1990). In this study, Ha-ras, Ki-ras, and N-ras sequences were examined by polymerase chain reaction (PCR) and direct DNA sequencing. The results confirm the point mutation in codon 61 (CAA to CGA in 5 TCCs and to CTA in one TCC) of the Ha-ras gene. Mutation at codon 12 was not confirmed. No mutation was found in the Ki-ras gene. Sequences of the N-ras gene exons 1 and 2 were determined, and no mutations was detected. These results suggest the involvement of activated Ha-ras gene, but not Ki-N or N-ras gene, in rat urinary bladder carcinogenesis induced by FANFT. Subsequent sodium saccharin administration did not affect the changes in Ha-ras gene.
Teratog Carcinog Mutagen 1993
PMID:Sequencing analysis of Ha-, Ki-, and N-ras genes in rat urinary bladder tumors induced by N-[4-(5-nitro-2-furyl)-2-thiazolyl]formamide (FANFT) and sodium saccharin. 790 76

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