UMLS:C0699790 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The bacterial enzymes beta-glucuronidase, azoreductase, and nitroreductase, all implicated in the etiology of colon cancer, were measured in the fecal microflora of rats and humans. The effect of a high-beef diet and advanced age on the activities of these microbial enzymes were determined in the rat. Rats shifted from a grain to a meat diet showed a 1.5- to 2.5-fold increase in activity of all three fecal enzymes. Animals over 20 months of age, consuming a meat diet, showed a further increase in fecal beta-glucuronidase activity, while the levels of all three microbial enzymes increased in old rats fed a grain diet. Fecal microbial enzyme activities were also measured in humans eating a diet supplemented with bran or wheat germ. Humans receiving fiber supplements consisting of 30 g of bran or wheat germ added to their customary diets did not show significant changes in fecal enzyme activity.
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PMID:Influence of diet and age on fecal bacterial enzymes. 10 Oct 73

We studied the effect of diet on the activities of four enzymes found in the intestinal flora of the male F344 rat. Animals initially fed a diet with high vegetable and grain content were shifted to a diet consisting predominantly of beef. While eating the meat diet, the rats had significantly higher levels of nitroreductase, azoreductase, and beta-glucuronidase in their fecal flora when compared to levels measured during grain feeding. However, beta-glucosidase activity was significantly lower during meat feeding, which probably reflected the lack of beta-glucosidic linkages in this diet. These findings suggested that a high-beef diet, similar in composition to that consumed by humans with a relatively high risk of colon cancer, is associated with elevated levels of specific enzymes in the colon microflora. These enzymes have been implicated in the conversion of procarcinogens into carcinogens.
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PMID:The relationship between diet and rat fecal bacterial enzymes implicated in colon cancer. 100 18

Because of the potential significance of colonic bacteria and secondary bile acids in the pathogenesis of colon cancer, the present study investigated the effect of different types of dietary fiber on fecal bacterial enzymes, namely, beta-glucuronidase, 7 alpha-dehydroxylase, nitroreductase, and azoreductase, and on bile acids and neutral sterols in premenopausal women. The subjects consumed 13-15 g of wheat, oat, or corn bran daily for 8 weeks in addition to their normal diet. Stools collected during the normal and fiber diet periods were analyzed for the above constituents. Dietary wheat bran decreased the concentrations of fecal deoxycholic acid, lithocholic acid, 12-ketolithocholic acid, and neutral sterols and the activities of all bacterial enzymes. Oat bran had no effect on secondary bile acids and 7 alpha-dehydroxylase but decreased beta-glucuronidase, nitroreductase, and azoreductase levels. Dietary corn bran increased 7 alpha-dehydroxylase, lithocholic acid, and cholesterol levels and decreased deoxycholic acid coprostanol, cholestenone, nitroreductase, and azoreductase levels. These results show that the modifying effect of dietary fiber on secondary bile acids and bacterial enzymes that may play a role in carcinogenesis depends on the type of fiber consumed.
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PMID:Effect of dietary fiber on colonic bacterial enzymes and bile acids in relation to colon cancer. 131 47

Glutathione (GSH) has been shown to modulate the cytotoxicity of a variety of chemotherapeutic agents. The effect of mitomycin C (MMC) treatment duration and the effect of GSH depletion on in vitro cytotoxicity against the human colon cancer cell line HT-29 was studied under aerobic conditions. Continuous-exposure experiments revealed that the cytotoxicity of 0.1 microM MMC, as measured by clonogenic cell survival, exhibited a shoulder until exposure time was at least 12 h, after which time exponential cytotoxicity was observed. Lowering GSH levels to less than 3% of control using buthionine sulfoximine (BSO) did not enhance cytotoxicity of MMC given for 1 h or continuously for less than 12 h. However, GSH depletion did enhance cytotoxicity of MMC given continuously for at least 12 h, with a dose-modifying factor at 1% survival of 1.4 for a 24-h treatment. GSH depletion under these conditions enhanced cytotoxicity of even minimally cytotoxic MMC concentrations (0.02 microM). Absolute levels of GSH-related enzymes, including glutathione-S-transferase, and the MMC-metabolizing enzyme DT-diaphorase did not change appreciably. A tetrazolium [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide] assay was used to verify the results further and to determine the optimal sequence of BSO administration with a 24-h MMC treatment. BSO added simultaneously with MMC did not increase cytotoxicity, compared to MMC alone. BSO added and then removed prior to MMC was effective (dose-modifying factor at 50% survival = 1.3), but the greatest cytotoxicity was noted when BSO was present before and during MMC treatment (dose-modifying factor = 1.5). GSH depletion in another cell line (SW480) showed similar enhancement of 24-h MMC cytotoxicity. These studies show that aerobic cytotoxicity of MMC is improved by administration of the drug in continuous fashion for at least 12 h, as opposed to continuous administration for shorter periods or 1-h bolus administration. Cytotoxicity of continuous (at least 12-h) MMC treatment can be modestly enhanced by GSH depletion, which must precede MMC exposure in order to be effective.
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PMID:Effect of treatment duration and glutathione depletion on mitomycin C cytotoxicity in vitro. 151 28

Epidemiologic studies suggest that the incidence of colon cancer is influenced by environmental factors, especially diet. The high beef-high fat-low fiber diet of Western societies is associated with a high risk of colon cancer. The intestinal microflora may play a role in colon cancer by metabolic activation of procarcinogens in the lumen of the large bowel. The link between diet and colon cancer can be explained, in part, by the alterations in fecal bacterial enzyme activity induced by a Western-style diet. For example, fecal bacterial beta-glucuronidase, nitroreductase, azoreductase and steroid 7-alpha-dehydroxylase activities are increased in animals or humans consuming a high beef diet. These enzyme activities can be reduced by eating a grain diet, by the addition of Lactobacillus acidophilus to the diet, or by administration of low dose antibiotics. In experimental animals these three measures to reduce the activity of the microflora also produce few colon tumors in animals given the chemical carcinogen dimethylhydrazine. Further studies are needed to establish whether alterations in the metabolism of the colonic microflora can reduce the risk of large bowel cancer in humans.
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PMID:The intestinal microflora and its colon cancer connection. 689 45

Resistance may limit the clinical usefulness of a variety of chemotherapeutic drugs including mitomycin C (MMC). The MMC-sensitive HT-29 colon cancer cell line and its MMC-resistant subline, HT-29R13, were studied in vitro under aerobic conditions to help characterize the mechanisms associated with MMC resistance. HT-29R13 cells exhibit approximately 2-fold resistance to MMC compared with HT-29 cells and lack the typical multidrug-resistance pattern; resistance is stable in the absence of drug exposure. Levels of glutathione (GSH) and total glutathione-S-transferase (GST) activity were not different between the two cell lines; however, levels of GSH reductase and GSH peroxidase were increased significantly in HT-29R13. Although total GST activity was unchanged, GST-pi and GST-alpha isoenzyme expression as measured using western blot were increased significantly in HT-29R13 compared with HT-29. DT-diaphorase levels and topoisomerase II activity were decreased significantly in HT-29R13. Both cell lines had equal P-glycoprotein expression. Multiple drug resistance mechanisms are present in HT-29R13 including decreased drug activation (decreased DT-diaphorase), increased drug detoxification (increased GST-pi and GST-alpha, GSH reductase, GSH peroxidase), and decreased accessibility of DNA targets (decreased topoisomerase II). Further work will be necessary to determine the degree to which each of these mechanisms contribute to MMC resistance in this model.
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PMID:Biochemical characterization of a mitomycin C resistant colon cancer cell line variant. 790 34

Maintenance of cellular homeostasis is a critical survival trait in tumors when exposed to anticancer drugs. Because conjugation and elimination of drugs and their metabolites is dependent upon sequential and coordinated pathways, acquired drug resistance through a gradual adaptive response would rarely be expected to be the consequence of changes in the expression of one gene product. We have used a number of drug-resistant human cell lines to characterize those genes that are implicated in maintaining a resistant phenotype. Human HT29 colon cancer cells chronically exposed to ethacrynic acid (EA) [a glutathione (GSH) and glutathione S-transferase (GST) modulator] have acquired resistance to the drug. Commensurate with resistance, EA is more effectively conjugated to GSH and effluxed from the resistant cells. Using directed and random (differential display) approaches, a number of detoxification and/or protective gene products have been shown to be expressed at elevated levels. These include: gamma-glutamyl cysteine synthetase (gamma-GCS, the rate-limiting enzyme in GSH biosynthesis); GST pi (the enzyme catalyzing the conjugation reaction); multidrug resistance associated protein (MRP) (the membrane pump responsible for effluxing the conjugate from the cell interior). In addition, other gene products not directly linked with EA metabolism were induced, including dihydrodiol dehydrogenase (an alpha-ketoreductase) (30-fold), DT-diaphorase (threefold), and a transcriptional regulator SSP 3521 (threefold). HL60 cells resistant to a GSH paralog Ter199 also show increased expression of some of these gene products. Furthermore, an adriamycin-resistant human HL60 cell line also shows overexpression of GST pi, gamma-GCS, and MRP, but in addition has approximately 20-fold more DNA-dependent protein kinase catalytic subunit (DNA-PKcs). This enzyme is an early stress response gene that can phosphorylate and activate downstream transcription factors. Such overexpression could impact on the transcriptional control of the other detoxification gene products. Both adriamycin and a typical drug-GSH conjugate (APA-SG) are inhibitors of DNA-PK. Because cellular levels of these conjugates would presumably be a good indicator of stress, it would seem reasonable to speculate that DNA-PK may act as a receiver and transmitter of signals that are crucial to the drug-resistant phenotype. Additionally, this enzyme may prove to be a potentially important target for drug design based upon the inhibitory activity of GSH conjugates.
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PMID:Importance of glutathione and associated enzymes in drug response. 940 35

EO9 is a novel bioreductive drug which has recently undergone extensive clinical evaluation. Its mechanism of action remains to be clearly defined. Antitumour activity of EO9 has been determined in 2 human colon cancer xenografts (HT-29 and BE) and 2 murine colon adenocarcinomas (MAC 16 and 26) after intratumoural injection of 250 microg of drug. Levels of the major bioreductive enzymes (DT-diaphorase, cytochrome P-450 reductase and cytochrome b5 reductase) were measured in tumours using cytochrome c reduction and menadione as the intermediate electron acceptor. There was no correlation between chemosensitivity (T/C: HT-29, 15%; BE, 27%; MAC 16, 33% and MAC 26, 60%) and enzyme activity (r2 = 0.47 for DT-diaphorase, r2 = 0.1 for cytochrome P-450 reductase and r2 = 0.52 for cytochrome b5 reductase). Drug metabolism was followed in vitro using tumour homogenates incubated under aerobic and anaerobic conditions. Four metabolites were identified by HPLC and characterised bv UV-visible spectroscopy. With the exception of the hydrolysis product EO5A, all other metabolites appeared to be drug adducts. No correlation was observed between the kinetics of metabolite formation and antitumour activity. A good correlation (r2 = 0.86) was found with the rate of disappearance of parent drug and antitumour activity. These data show that the overall capacity of a tumour to metabolise EO9 is the most important determinant of antitumour activity rather than the expression of the major bioreductive enzymes and that the parent drug rather than a metabolite leads to the active form of the drug.
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PMID:Pharmacological and biochemical determinants of the antitumour activity of the indoloquinone EO9. 948 90

A network composed of activation and inactivation pathways to regulate mitomycin C (MMC) action is suggested to exist in human cancer cells. COLO201 colon cancer cells were stably transfected with human NQO1 cDNA that encodes NAD(P)H:quinone oxidoreductase (DT-diaphorase, DTD), and a clonal cell line with about 57-fold elevated DTD activity was obtained. Northern analysis revealed that expression of the NADPH:cytochrome P450 reductase (P450 reductase) gene was decreased in the transfectant, COLO201/NQO1, associated with the increase of NQO1 expression. Biochemical characterization of the cells showed a significant increase of the glutathione (GSH) content concomitantly with the decrease of the P450 reductase activity. As a result of these coordinated modulations, sensitivity of COLO201/NQO1 to MMC was not increased as compared to the parent cells. Analyses of inhibition by specific inhibitors of DTD, P450 reductase and glutathione S-transferase (GST) in 5 human colon cancer cell lines including the transfectant showed that DTD and P450 reductase play significant roles in MMC activation in cells with sufficiently high DTD activity and with marginal DTD activity, respectively. In contrast, GST appeared to participate in MMC inactivation in cells with a high level of GST activity. These results indicated that DTD, P450 reductase, GSH and GST may act together compensatively or competitively, depending on their levels in cells, to determine the cellular sensitivity to MMC.
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PMID:Regulatory network of mitomycin C action in human colon cancer cells. 1039 Oct 98

A series of naphthoquinone and benzimidazolequinone phosphorodiamidates has been synthesized and studied as potential cytotoxic prodrugs activated by DT-diaphorase. Reduction of the quinone moiety in the target compounds was expected to provide a pathway for expulsion of the phosphoramide mustard alkylating agent. All of the compounds synthesized were excellent substrates for purified human DT-diaphorase (k(cat)/K(m) = 3 x 10(7) - 3 x 10(8) M(-1) s(-1)). The naphthoquinones were toxic to both HT-29 and BE human colon cancer cell lines in a clonogenic assay; however, cytotoxicity did not correlate with DT-diaphorase activity in these cell lines. The benzimidazolequinone analogues were 1-2 orders of magnitude less cytotoxic than the naphthoquinone analogues. Chemical reduction of the naphthoquinone led to rapid expulsion of the phosphorodiamidate anion; in contrast, the benzimidazole reduction product was stable. Michael addition of glutathione and other sulfur nucleophiles provides an alternate mechanism for activation of the naphthoquinone phosphorodiamidates, and this mechanism may contribute to the cytotoxicity of these compounds.
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PMID:Development of novel quinone phosphorodiamidate prodrugs targeted to DT-diaphorase. 1095 24

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