Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The modifying effects of indole-3-carbinol (I3C) and sinigrin (SIN) on the initiation and post-initiation phases of tongue carcinogenesis induced by 4-nitroquinoline 1-oxide (4-NQO) were investigated in male ACI/N rats. Rats were divided into eight groups: group 1 was given 4-NQO (10 ppm) in the drinking water for 12 weeks, starting at 7 weeks of age; groups 2 and 3 were given 4-NQO and fed the diets containing I3C (1,000 ppm) and SIN (1,200 ppm) for 14 weeks, respectively, starting at 6 weeks of age; groups 4 and 5 were given 4-NQO and then they were fed I3C and SIN containing diets for 23 weeks, respectively, starting one week after 4-NQO exposure; groups 6 and 7 were given I3C and SIN alone, respectively, during the experiment; group 8 served as an untreated control. At the termination of the experiment (week 37), the incidence of tongue neoplasms (squamous cell papilloma and carcinoma) in group 2 (1/15, 7%), group 3 (1/15, 7%), group 4 (3/15, 20%) or group 5 (2/15, 13%) was significantly smaller than that in group 1 (12/17, 71%) (P = 0.0003, P = 0.005 or P = 0.002). No tongue carcinomas developed in rats of groups 2, 3, and 5. Similarly, the incidence of preneoplastic lesions (hyperplasia and dysplasia) of the tongue in group 2 (11/15, 73%), group 3 (10/15, 67%), group 4 (11/15, 73%) or group 5 (10/15, 67%) was significantly lower than that in group 1 (17/17, 100%) (P = 0.04 or P = 0.02). There were no tongue neoplasms in rats of groups 6, 7, and 8. Administration of I3C and SIN also caused significant decreases in the number and area of silver-stained nucleolar organizer regions protein (AgNORs), a new cell proliferation index, of tongue squamous epithelium. Thus, I3C and SIN inhibited rat tongue carcinogenesis in both the initiation and post-initiation phases, when administered in these respective phases together with, or following treatment with, 4-NQO.
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PMID:Inhibitory effects of the natural products indole-3-carbinol and sinigrin during initiation and promotion phases of 4-nitroquinoline 1-oxide-induced rat tongue carcinogenesis. 139 21

Indole-3-carbinol (I3C) is a dietary modulator of carcinogenesis that can reduce the level of carcinogen binding to DNA. I3C-derived products are potent inducers of certain cytochrome P-450(CYP)-dependent enzyme activities. To investigate whether the protective effects of I3C against carcinogen damage to DNA are associated with increased activities of CYP1A1 enzymes, we examined the relationship of I3C-mediated organ-specific CYP enzyme induction with total levels of benzo[a]pyrene (BP) binding to hepatic and pulmonary DNA of rats. Oral intubation (PO) of I3C (500 mumol/kg body wt.) in 10% DMSO in corn oil produced after 20 h, increases in ethoxyresorufin O-deethylase (EROD) activities (associated with CYP1A1 isozyme) of 700-fold, 245-fold and 36-fold in small intestine, lungs and liver, respectively, compared with activities in untreated controls. Hepatic aryl hydrocarbon hydroxylase (AHH) activity was increased 4-fold under these conditions. Pentoxyresorufin O-depentylase (PROD) activity (associated with CYP2B isoenzyme) was increased 6-fold in the liver but was unaffected in lung and small intestine. Intraperitoneal injection (IP) of I3C (500 mumol/kg body wt.) produced no significant change in EROD or PROD activities in lung, liver, or small intestine. PO administration of the acid reaction mixture (RXM) of I3C increased hepatic AHH activity (5-fold) and EROD activities in small intestine (650-fold), lung (100-fold) and liver (18-fold). IP administration of RXM (equivalent to 500 mumol I3C/kg body wt.) significantly increased only EROD activity in lung and liver, but did not affect EROD activity in small intestine, AHH activity in liver, or PROD activity in any of the organs examined. Twenty hours after inducer treatment, half of the rats were treated PO with 0.2 mumol [3H]BP in corn oil. Analysis of tissues 5 h after BP administration indicated that compared with untreated controls, administration of I3C and RXM by either route reduced by 30-50% the level of BP binding to hepatic DNA, an effect that was not correlated to CYP1A1 enzyme induction in any of the organs examined. However, PO administration of I3C and RXM produced a 50-70% decrease in carcinogen binding to pulmonary DNA, while IP administration of inducers had no effect on DNA binding in this organ. These results with the lung are consistent with an increased presystemic clearance of BP in the intestine and are discussed in terms of the role of induction of intestinal CYP1A1 activity in the decreased lymphatic and venous transport of unmetabolized BP to the lung.
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PMID:Organ-selective induction of cytochrome P-450-dependent activities by indole-3-carbinol-derived products: influence on covalent binding of benzo[a]pyrene to hepatic and pulmonary DNA in the rat. 151 51

Indole-3-carbinol [I3C, also called 3-(hydroxymethyl)indole] is a naturally occurring modulator of carcinogenesis with a biological activity that is at least partially dependent on its conversion to active substances in acidic media. We compared the identities of the major oligomeric products of I3C produced under conditions approximating those found in gastric juice with the reported identities of products of 3-substituted indoles produced under enzymatic and other nonenzymatic conditions. After a 10-min treatment in aqueous HCl solution, I3C was converted in 18% yield to a mixture of acetonitrile-soluble products, the major components of which (as determined by HPLC) were diindol-3-ylmethane (5.9%), 5,6,11,12,17,18-hexahydrocyclononal[1,2-b:4,5-b':7,8-b"]triindo le (2.0%), and [2-(indol-3-ylmethyl)indol-3-yl]indol-3-ylmethane (5.9%). Tentative assignments were made for 3,3-bis(indol-3-ylmethyl)indolenine (0.59%), a symmetrical cyclic tetramer (0.64%), and a linear tetramer (1.1%). Indolo[3,2-b]carbazole (ICZ) was formed slowly in aqueous acidic solutions in low yields (2.0 ppm) which increased to greater than 90 ppm following addition of an organic solvent [tetrahydrofuran (THF) or dimethylformamide (DMF)] to a neutralized solution. Relative yields of trimers vs dimer increased with decreasing pH and with decreasing starting concentration of I3C. Evidence is presented that ICZ formation may not involve radical intermediates as is characteristic of photodynamic processes. A mechanistic rationale is presented for the formation of the identified products.
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PMID:Oligomerization of indole-3-carbinol in aqueous acid. 164 48

Indole-3-carbinol (I3C) is a secondary plant metabolite produced in vegetables of the Brassica genus, including cabbage, cauliflower, and brussels sprouts. I3C is both an anti-initiator and a promoter of carcinogenesis. Consumption of I3C by humans and rodents can lead to marked increases in activities of cytochrome P-450-dependent monooxygenases and in a variety of phase II drug-metabolizing enzymes. We have reported previously that the enzyme-inducing activity of I3C is mediated through a mechanism requiring exposure of the compound to the low-pH environment of the stomach. We report here the aromatic hydrocarbon responsiveness-receptor Kd values (22 nM-90 nM), determined with C57BL/6J mouse liver cytosol and the in vitro- and in vivo-molar yields (0.1-6%) of the major acid condensation products of I3C. We also show that indolo[3,2-b]carbazole (ICZ) is produced from I3C in yields on the order of 0.01% in vitro and, after oral intubation, in vivo. ICZ has a Kd of 190 pM for aromatic hydrocarbon responsiveness-receptor binding and an EC50 of 269 nM for induction of cytochrome P4501A1, as measured by ethoxyresorufin O-deethylase activity in murine hepatoma Hepa 1c1c7 cells. The binding affinity of ICZ is only a factor of 3.7 x 10(-2) lower than that of the highly toxic environmental contaminant and cancer promoter 2,3,7,8-tetrachlorodibenzo-p-dioxin. ICZ and related condensation products appear responsible for the enzyme-inducing effects of dietary I3C.
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PMID:Aromatic hydrocarbon responsiveness-receptor agonists generated from indole-3-carbinol in vitro and in vivo: comparisons with 2,3,7,8-tetrachlorodibenzo-p-dioxin. 165 85

Indole-3-carbinol (I3C) is a potent inducer of cytochrome P450 enzymes in many species, including humans. We therefore studied alterations in the cytochrome P450-dependent metabolism of estradiol in different strains of mice consuming I3C in semisynthetic powdered diets at doses ranging from 250 to 5000 p.p.m. (34-700 mg/kg/day) for different periods of time. In short-term metabolic studies (3 weeks), wet liver weight increased in SW and C3H/OuJ mice in a dose-responsive manner. Dietary I3C increased the cytochrome P450 content measured in hepatic microsomes, as well as the extent of estradiol 2-hydroxylation, up to 5-fold. In a long-term feeding experiment (8 months), female C3H/OuJ mice consumed synthetic diets containing I3C at 0, 500 or 2000 p.p.m. Mammary tumor incidence and multiplicity were significantly lower at both doses of I3C, and tumor latency was prolonged in the high-dose group. We conclude that I3C is an inducer of hepatic P450-dependent estrogen metabolism in mice, and that it is chemopreventive in the C3H/OuJ mouse mammary tumor model. This protective effect may be mediated in part by the increased 2-hydroxylation and consequent inactivation of endogenous estrogens.
Carcinogenesis 1991 Sep
PMID:Effects of dietary indole-3-carbinol on estradiol metabolism and spontaneous mammary tumors in mice. 189 17

Cruciferous plant foods contain large quantities of secondary plant metabolites that have been shown to inhibit chemically induced carcinogenesis in animals. One mechanism by which these chemicals may inhibit carcinogenesis is through the induction of enzymes, such as cytochrome P-450-dependent monooxygenases, glutathione S-transferases (GST) or epoxide hydrolases (EH), which metabolize carcinogens to more polar and excretable forms. Cruciferous vegetables of the Brassica genus (e.g. Brussels sprouts, cauliflower, broccoli) contain micrograms/g levels of an indolylmethyl glucosinolate commonly known as glucobrassicin. Upon disruption of the plant material, as in food preparation or chewing, a thioglucosidase-mediated autolytic process ensues generating indole-3-carbinol (I3C), glucose, and thiocyanate ion. At acid pH comparable to that found in the stomach, I3C forms to wide variety of condensation products ranging from linear and cyclic dimers, trimers and tetramers to extended heterocyclic compounds such as indolocarbazoles. Experiments reviewed here indicate that these indole-condensation products are the compounds responsible for some of the alterations in carcinogen metabolism observed in animals fed either I3C or any of several Brassica plant foods.
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PMID:Modification of carcinogen metabolism by indolylic autolysis products of Brassica oleraceae. 189 90

Indole-3-carbinol (13C), a secondary metabolite from cruciferous vegetables, inhibits aflatoxin B1 (AFB1) hepatocarcinogenesis in trout (Bailey et al., J. Natl. Cancer Inst., 78: 931-934, 1987) and rats (Selivonchick et al., unpublished results) when given prior to and with carcinogen but promotes carcinogenesis in both species when given continuously following AFB1 initiation. Since human 13C intake may not be continuous, and the promotional stimulation may be reversible, we have assessed 13C promotion using delayed and discontinuous exposure protocols. Following initiation with AFB1, 13C was fed to trout for varying periods of time, with varying lengths of delay after initiation and continuous or intermittent patterns of 13C treatment. Promotional enhancement of tumor incidence by 13C was found to be significant when 13C treatment was delayed for several weeks or months after the initial AFB1 challenge. Promotion also was found to increase with length of exposure to 13C treatment and to be decreased but still evident when 13C was given in alternating months or weeks, or twice per week only. These results do not support the idea that promotional stimulation in hepatocarcinogenesis is a reversible phenomenon. To quantify 13C promotional potency in terms of its dietary concentration, a series of AFB1 tumor dose-response curves was established, each with a different level of 13C fed continuously following AFB1 initiation. The resultant tumor dose-response curves, plotted as logit percentage of incidence versus log AFB1 dose, were displaced parallel toward lower AFB1 50% tumor take (TD50) values with increasing 13C concentration. The level of 13C that halves the AFB1 dose for 50% tumor incidence was calculated to be approximately 1000 ppm 13C, fed continuously, with no substantial threshold for promotion. By comparison, 13, when fed before and with AFB1, shows a 50% inhibitory value (13C concentration that doubles the dose of AFB1 for 50% tumor incidence) in trout of 1400 ppm 13C [Dashwood et al., Carcinogenesis (Lond.), 10: 175-181, 1989]. Thus the potential for 13C as a dietary additive to promote prior hepatic initiation events when fed continuously is approximately as great as its potential to inhibit concurrent AFB1 initiation.
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PMID:Promotion of aflatoxin B1 carcinogenesis by the natural tumor modulator indole-3-carbinol: influence of dose, duration, and intermittent exposure on indole-3-carbinol promotional potency. 190 61

The value of chemopreventive agents for reducing human response to mycotoxins and N-nitrosamines remains uncertain, especially since many such agents also can act as tumour promoters. Indole-3-carbinol (I3C) from cruciferous vegetables can inhibit DNA adduction and hepatocarcinogenesis induced by aflatoxin B1 (AFB1) or N-nitroso-diethylamine in trout if given before and with the carcinogen but promotes carcinogenesis when given after initiation. Similar results have been obtained with I3C and AFB1 in rats. In detailed studies using 10,000 trout, inhibition of AFB1 carcinogenesis was found to be saturable at high doses of I3C, approximately proportional to dose of I3C through the range of human intake and, within this range, quantitatively predicted by I3C-mediated reduction of AFB1-DNA adduction in liver. In a second study, post-initiation promotion of AFB1 carcinogenesis was approximately proportional to I3C dose, increased with duration of exposure, decreased with delayed onset of exposure, and reduced but still significant when I3C was given on alternate months or weeks or twice per week only. Hence, promotion by this common component of cruciferous vegetables required prolonged exposure but not necessarily on a daily basis.
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PMID:Modulation of mycotoxin and nitrosamine carcinogenesis by indole-3-carbinol: quantitative analysis of inhibition versus promotion. 190 35

The modifying potential of allyl sulfide (AS), indole-3-carbinol (I3C) and carboxyethylgermanium sesquioxide (GE) on lesion development was examined in a wide-spectrum initiation model. Groups 1-4 were treated sequentially with diethylnitrosamine (DEN) (100 mg/kg, i.p., single dose), N-methylnitrosourea (MNU) (20 mg/kg, i.p., four doses at days 2, 5, 8 and 11), and N,N-dibutylnitrosamine (DBN) (0.05% in drinking water during weeks 3 and 4). Groups 5-7 received vehicles without carcinogens during the initiation period. Group 8 served as the untreated control. After this initiating procedure, groups 2-7 were administered a diet containing 0.5% AS or I3C and 0.05% GE. All surviving animals were killed 40 weeks after the beginning of the experiment and the target organs were examined. The induction of GST-P+ hepatic foci in rats treated with carcinogens was significantly inhibited by treatment with all three compounds. AS treatment significantly decreased the incidence of hepatic hyperplastic nodules, adenoma of the lung and thyroid, and papillary or nodular hyperplasia of the urinary bladder. Administration of GE also significantly inhibited the development of hepatic nodules and adenoma of the lung and thyroid. However, I3C only inhibited the hyperplastic nodules of the liver. These results demonstrated that this multi-organ initiation model could be useful in confirming organ-specific modification potential and, in addition, the inhibitory effect of AS, I3C and GE on liver, lung, thyroid and urinary bladder carcinogenesis.
Carcinogenesis 1991 Apr
PMID:Modifying responses of allyl sulfide, indole-3-carbinol and germanium in a rat multi-organ carcinogenesis model. 201 33

The induction of oxidation and conjugation enzymes, the scavenging of carcinogen electrophiles, and the inhibition of aflatoxin B1 (AFB1) activation were examined as possible mechanisms of anti-carcinogenesis by indole-3-carbinol (I3C). Liver microsomal 7-ethoxycoumarin O-deethylase and 7-ethoxyresorufin O-deethylase activities were not induced significantly in rainbow trout fed diets containing 500-2000 ppm I3C for 8 days compared to trout fed the control diet. Furthermore, no detectable changes in the specific contents of cytochrome P-450 isozymes LM2 and LM4b, as measured by Western-blotting and immunoquantitation, were found in liver microsomes following dietary I3C administration. Dietary I3C had no significant effect on liver microsomal uridine diphosphate-glucuronyl-transferase activity, measured using the substrates 1-naphthol and testosterone, or on cytosolic glutathione S-transferase activity, measured using the substrate styrene oxide. The ability of I3C or its acid reaction products (RXM; generated by the reaction of I3C with HCl) to act as scavengers for the direct alkylating agent AFB1-8,9-Cl2 was examined. Addition of I3C or RXM to in vitro incubations did not inhibit the covalent binding of AFB1-8,9-Cl2 to calf thymus DNA. Kinetic analyses of microsome-mediated binding of AFB1 to DNA in vitro indicated that RXM inhibited the metabolic activation of AFB1. RXM increased the apparent Km for the AFB1-DNA binding reaction without changing the associated Vmax; the apparent Km values at 0, 3.5, 35, and 350 microM RXM were 35, 38, 66, and 86 microM for trout liver microsomes. RXM also inhibited the activation of AFB1 by rat liver microsomes, but I3C was not an effective inhibitor against AFB1-DNA binding mediated by either rat or trout liver microsomes. The results of the present study indicate that inhibition of microsome-activated AFB1 binding to DNA by I3C products may be of significant importance in I3C inhibition of hepatocarcinogenesis in trout and other species. The inhibition of carcinogen activation by I3C is contrasted with the mechanism of anti-carcinogenesis by beta-naphthoflavone, which involves induction of xenobiotic metabolizing enzymes.
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PMID:Mechanisms of anti-carcinogenesis by indole-3-carbinol. Studies of enzyme induction, electrophile-scavenging, and inhibition of aflatoxin B1 activation. 210 94


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