nitrophenols and pyrazole

The induction effects of pyrazole and dexamethasone (known to be specific to P450 2E1 and 3A enzymes, respectively), given alone or simultaneously, were studied in rat liver and kidney microsomes. Pyrazole treatment induced the catalytic activity and the amount of P450 2E1 enzyme in both organs. Immunoreactive P450 2E1 and 4-nitrophenol 2-hydroxylation increased 8- and 13-fold, respectively (versus control), in the kidney, but only 2.4- and 2.7-fold (versus control) in the liver after pyrazole treatment. As assessed by nifedipine oxidation activity, dexamethasone treatment increased the P450 3A catalytic activity approximately 4-fold (versus control) in the liver, but not in the kidney, suggesting that P450 3A was not inducible in the kidney. Pyrazole decreased P450 3A activity in the liver but did not modify it in the kidney. A combination of both chemicals induced both enzymes, but to a lesser extent than treatment with each single chemical compound. Furthermore, the 2-hydroxylation of p-nitrophenol, considered one of the most specific substrates for monitoring the level of P450 2E1, was mediated also by P450 3A, at least in dexamethasone-treated rats. Finally, this experimental work demonstrated that P450 3A induction is organ-specific, and it also demonstrated the lack of specificity of p-nitrophenol as a P450 2E1 substrate.

Topics: Animals; Aryl Hydrocarbon Hydroxylases; Cytochrome P-450 CYP2E1; Cytochrome P-450 CYP3A; Cytochrome P-450 Enzyme System; Dexamethasone; Enzyme Induction; Enzyme Inhibitors; Kidney; Liver; Male; Nitrophenols; Oxidoreductases, N-Demethylating; Pyrazoles; Rats; Rats, Wistar; Substrate Specificity

Cytochrome P-450 (P-450) 2E1 is under transcriptional and post-transcriptional control. Well-defined time courses were carried out to compare the effect of pyrazole and 4-methylpyrazole on catalytic activities, apo-P-450 2E1 levels and mRNA levels to evaluate whether induction of P-450 2E1 is preceded by altered mRNA levels. Two days of treatment with pyrazole or three days of treatment with 4-methylpyrazole resulted in significant induction of P-450 2E1, as assessed by Western blots and by oxidation of dimethylnitrosamine or p-nitrophenol. No changes in mRNA levels were detected with either inducer. Within 2 h of the second treatment with pyrazole, maximal induction of P-450 2E1 was observed, however, a 8-12 h time-dependent period was required after the third treatment with 4-methylpyrazole for maximal induction. Irrespective of the time period, increased catalytic activity and P-450 2E1 appears to reflect a post-transcriptional mechanism. A single treatment with 4-methylpyrazole increased P-450 2B1/B2 levels and oxidation of pentoxyresorufin about 2- to 3-fold. No change in mRNA levels for 2B1/B2 was observed. Although significant, the induction of 2B1/B2 by 4-methylpyrazole is more than an order of magnitude less than that by phenobarbital. Pyrazole did not induce 2B1/B2. It appears that, similar to acetone and ethanol, 4-methylpyrazole may increase several P-450 isozymes, whereas pyrazole is more specific for induction of P-450 2E1.

Topics: Animals; Base Sequence; Cytochrome P-450 CYP2E1; Cytochrome P-450 Enzyme System; Dimethylnitrosamine; Enzyme Induction; Fomepizole; Immunoblotting; Male; Molecular Sequence Data; Nitrophenols; Oligonucleotide Probes; Oxazines; Oxidoreductases, N-Demethylating; Pyrazoles; Rats; Rats, Inbred Strains; RNA, Messenger; Time Factors

Cytochrome P-450IIE1 is induced by a variety of agents, including acetone, ethanol and pyrazole. Recent studies employing immunohistochemical methods have shown that P-450IIE1 was expressed primarily in the pericentral zone of the liver. In order to evaluate whether catalytic activity of P-450IIE1 is preferentially localized in the pericentral zone of the liver acinus, the oxidation of aniline and p-nitrophenol, two effective substrates for P-450IIE1, by periportal and pericentral hepatocytes isolated from pyrazole-treated rats was determined. Periportal and pericentral hepatocytes were prepared by a digitonin-collagenase procedure; the marker enzymes glutamine synthetase and gamma-glutamyl transpeptidase indicated reasonable separation of the two cell populations. Viability, yield and total cytochrome P-450 content were similar for the periportal and pericentral hepatocytes. Pericentral hepatocytes oxidized aniline and p-nitrophenol at rates that were 2-4-fold greater than periportal hepatocytes under a variety of conditions. Carbon monoxide inhibited the oxidation of the substrates with both preparations and abolished the increased oxidation found with the pericentral hepatocytes. Pyrazole or 4-methylpyrazole, added in vitro, effectively inhibited the oxidation of aniline and p-nitrophenol and prevented the augmented rate of oxidation by the pericentral hepatocytes. Western blots carried out using isolated microsomes revealed a more than 2-fold increase in immunochemical staining with microsomes isolated from the pericentral hepatocytes, which correlated to the 2-4-fold increase in the rate of oxidation of aniline or p-nitrophenol by the pericentral hepatocytes. These results suggest that functional catalytic activity of cytochrome P-450IIE1 is preferentially localized in the pericentral zone of the liver acinus, and that most of the induction by pyrazole of P-450IIE1 appears to occur within the pericentral zone.

Topics: Aniline Compounds; Animals; Carbon Monoxide; Catalysis; Cytochrome P-450 CYP2E1; Fomepizole; gamma-Glutamyltransferase; Glutamate-Ammonia Ligase; Liver; Male; Nitrophenols; Oxidation-Reduction; Oxidoreductases, N-Demethylating; Pyrazoles; Rats; Rats, Inbred Strains; Tissue Distribution

Induction of cytochrome P-450 IIE1 by pyrazole has been shown in a variety of studies with isolated microsomes or reconstituted systems containing the purified P-450 isozyme. Experiments were conducted to document induction by pyrazole in intact hepatocytes by studying the oxidation of p-nitrophenol to 4-nitrocatechol or of aniline to p-aminophenol. Hepatocytes prepared from rats treated with pyrazole for 2 days oxidized p-nitrophenol or aniline at rates which were 3- to 4-fold higher than saline controls. To observe maximal induction in hepatocytes, it was necessary to add metabolic substrates such as pyruvate, sorbitol or xylitol, which suggests that availability of the NADPH cofactor may be rate-limiting in the hepatocytes from the pyrazole-treated rats. Carbon monoxide inhibited the oxidation of p-nitrophenol and aniline by hepatocytes from the pyrazole-treated rats and controls, demonstrating the requirement for cytochrome P-450. The oxidation of both substrates by the hepatocyte preparations was inhibited by a variety of agents that interact with and are effective substrates for oxidation by P-450 IIE1 such as ethanol, dimethylnitrosamine, pyrazole and 4-methylpyrazole. Microsomes isolated from pyrazole-treated rats oxidized aniline and p-nitrophenol at elevated rats compared to saline controls. These results indicate that induction by pyrazole of the oxidation of drugs which are effective substrates for P-450 IIE1 can be observed in intact hepatocytes. The extent of induction and many of the characteristics of aniline or p-nitrophenol oxidation observed with isolated microsomes from pyrazole-treated rats can also be found in the intact hepatocytes.

Topics: Aniline Compounds; Animals; Cells, Cultured; Fomepizole; Kinetics; Liver; Male; Microsomes, Liver; NADP; Nitrophenols; Oxidation-Reduction; Pyrazoles; Rats; Rats, Inbred Strains