RESUMO

The role of cytochrome P450 (CYP) and the CYP isoform involved in the activation of the widely used pesticide methyl-parathion (MePA) were investigated in rat brain extracts by measuring the effect of different CYP inhibitors on acetylcholinesterase (AChE) inhibition by MePA. Brain extracts provide a useful tool to study the activation mechanisms of organophosphorus compounds (OP) since they contain both the activating enzyme(s) and the molecular target for OP toxicity. As expected, in incubations of rat brain extract supplemented with NADPH, AChE activity was non-competitively inhibited by the presence of MePA, indicating that MePA was activated to its reactive metabolite methyl-paraoxon (MePO). Indeed, Vmax(app) decreased from 13.4 to 8.7 micromol thionitrobenzoic acid (TNB)/min per mg protein. MePA activation by rat brain extracts, as measured by the AChE inhibition produced by the presence of the pesticide in the incubation, was fully prevented by previously bubbling the incubation mix with CO, by the presence of monoclonal anti-rat CYP2B1/2B2 antibodies and by the addition of phenobarbital (PB), a CYP2B substrate. Interestingly, MePA showed a greater affinity for CYP2B than PB. CYP1A1 antibodies showed no effect on MePA activation. The presence of cytochrome P450 2B (CYP2B) in the rat brain extracts was confirmed by immunoblotting. These results demonstrate indisputably the responsibility of CYP2B in MePA activation in the rat brain in vitro, suggesting that metabolic activation of OP compounds in situ might be crucial for their organ specific toxicity to the central nervous system also in vivo.

Assuntos

RESUMO

Dichlorodiphenyltrichloroethane (DDT) is a well-known inducer of microsomal monooxygenase systems in rodent liver. However, little information is available on its effects on the sex-dependent regulation of CYPs preferentially affected. Therefore, our objective was to evaluate the effects of DDT on the sexual expression pattern of some hepatic P-450 isozymes. Single doses of technical DDT (0, 0.1, 1, 5, 10, or 100 mg/kg body wt) were administered by gavage to Wistar rats. The effects on CYPs 1A1, 2B11/2B2, 2C11, 2E1, 3A1, and 3A2, were assessed 24 h later by means of CYP protein content determined by Western blotting and/or enzyme activities participating in alkoxyresorufin and pnitrophenol metabolism. The highest dose induced 18-fold the expression of CYP3A2 in female rats without producing significant induction (< 3-fold) in males. The effects on this isozyme, which is not normally expressed in females, suggest that DDT is able to modulate sexual metabolic dimorphism, as 3A2 expression is androgen dependent. DDT did not significantly alter CYP3A1 in males, suggesting that DDT is not a pure phenobarbital (PB)-type inducer. The effects on CYP2B1/2B2 protein (19-fold) and associated enzyme activities indicated that males had a lower response threshold than females, but that the latter were able to reach a higher relative induction. The preferential induction of CYPs 2B and 3A by DDT in a sex-related manner suggest that CYP regulation could play an important role in endocrine disruption.

Assuntos

RESUMO

The ability of chromium (Cr) salts to increase metallothionein (MT) levels in rat liver, kidney and pancreas, and its relationship with the presence of toxic effects are reported here. Rats were injected subcutaneously with 0, 10, 20, 30, 40, or 50 mg K2Cr2O7/kg and sacrificed 24 h later. Total Cr accumulation followed a dose-dependent pattern, levels in kidney being higher than those in liver or pancreas, suggesting different tissue bioavailabilities and accumulation patterns. Cr(IV) administration resulted in a tissue-specific MT induction: pancreas and liver showed five- and 3.5-fold MT increases, respectively; no increase was observed in the kidney. A positive correlation was observed between zinc and MT concentrations in liver, and between total Cr and MT concentrations in pancreas. Serum alpha-amylase activity showed a dose-dependent increase starting from 20 mg/kg, whereas serum glucose levels increased at doses higher than 30 mg/kg. Serum aspartate aminotransferase and alanine aminotransferase activities were increased in a dose-dependent manner, from 20 and 30 mg/kg, respectively. Our results showed that treatment with Cr(VI) can induce MT synthesis in pancreas and suggests a subsequent binding of Cr to MT. Also, pancreas is a target organ for Cr toxicity, and the usefulness of alpha-amylase activity as a sensitive biomarker of Cr toxicity in human exposed populations merits further study.

Assuntos

RESUMO

To study the functionality of the urea cycle in long-term cultures of adult rat hepatocytes, urea production and the activity of two urea cycle enzymes were measured in hepatocytes cultured on 3T3 cells for 15 days. Urea production was also measured in cultures maintained with medium containing either 0.4 mm arginine or 0.4 mm ornithine and in cultures exposed to different concentrations of NH(4)Cl, an in vivo inducer of urea production. In hepatocytes seeded on 3T3 cells, urea production decreased gradually to 50% of the initial value after 15 days. Urea production was similar in 3T3-hepatocyte cultures maintained for 11 days with medium containing ornithine or arginine. Hepatocytes exposed for 24 hr to 1, 3 and 5 mm NH(4)Cl showed an average increase in urea production of 25, 50 and 69%, respectively, above that of unexposed cultures over 15 days. Ornithine transcarbamylase (OTC) activity decreased by 84% after 5 days in culture and remained constant thereafter, while arginase activity remained constant over 15 days. In contrast, in hepatocytes seeded on plastic substratum, urea production decreased to 24% of the initial value after 8 days in culture. OTC and arginase activities also decreased to 13 and 10% of their initial values after 8 days in culture. These results show that 3T3-hepatocyte cultures from adult rats produce urea from ornithine and/or arginine for at least 15 days and respond to an inducer of urea production as in vivo. They also show that these cultures have decreasing and constant levels of OTC and arginase activities, respectively, owing probably to an adaptative response dependent on substrate concentrations and hormonal regulation. These findings also suggest that 3T3-hepatocyte cultures are a suitable in vitro system to study urea production, its regulation by substrates and hormones and its alteration by drugs and toxic chemicals.