Studies on the in vivo and in vitro estrogenic activities of methoxychlor and its metabolites. Role of hepatic mono-oxygenase in methoxychlor activation

The injection of rats with methoxychlor stimulated uterine ornithine decarboxylase (ODC) activity and caused an increase in uterine weight 7 hr after injection. The di-demethylated derivative of methoxychlor {[2,2-bis(p-hydroxyphenyl-1,1,1-trichloroethane] (HPTE)} markedly stimulated rat uterine ODC and enlarged uterine wet weight 6 hr after administration. Because we previously demonstrated that HPTE, but not methoxychlor, inhibited the binding of [³H]estradiol-17β ([³H]E₂) to uterine cytosolic estrogen receptor in vitro, we considered the possibility that the estrogenic activity of methoxychlor in vivo was due to biotransformation of methoxychlor. The evolution of formaldehyde occurred when methoxychlor was incubated with rat hepatic microsomes in the presence of NADPH, indicating that methoxychlor was O- demethylated in vitro. The demethylation of methoxychlor was inhibited when methoxychlor was incubated with microsomes in the presence of hexobarbital or 2-diethylaminoethyl diphenyl-propylacetate hydrochloride (SKF-525A), suggesting the involvement of mono-oxygenase. Furthermore, the demethylated products were resolved by thin-layer chromatography (t.l.c.) into three chromatographically distinct components more polar than methoxychlor. One of the products appears to be the di-demethylated derivative of methoxychlor, since it was chromatographically identical to HPTE in three t.l.c. systems. Each of the three components inhibited [³H]E₂ binding to rat uterine cytosol in vitro; however, the metabolite with an R_f equal to that of HPTE demonstrated equal potency to HPTE with respect to suppression of [³H]E₂ binding to uterine cytosol. The possible involvement of mono-oxygenase in biotransformation in methoxychlor into estrogenic metabolites in vivo is discussed.     

Metabolism of methoxychlor by hepatic P-450 monooxygenases in rat and human. 1. Characterization of a novel catechol metabolite

Previous investigations demonstrated that the incubation of the chlorinated hydrocarbon pesticide methoxychlor [1,1,1-trichloro-2,2-bis(4-methoxyphenyl)ethane] with rat liver microsomes generates phenolic estrogenic metabolites. The current study shows that the incubation of liver microsomes from untreated and phenobarbital-treated rats and human donors, in the presence of NADPH, yields three phenolic metabolites. Identification of the metabolites was achieved by TLC, HPLC, GC/MS, and LC/MS and by hydrodynamic voltammetric analysis. These metabolites were identified as the mon- and didemethylated phenolic derivatives (mono-OH-M and bis-OH-M, respectively) and as a novel trihydroxy derivative (tris-OH-M). The tris-OH-M was demonstrated to be a catechol [1,1,1-trichloro-2-(4-hydroxyphenyl)-2-(3,4-dihydroxyphenyl)ethane]. Furthermore, the tris-OH-M becomes radiolabeled by [methyl-3H3]-S- adenosylmethionine (SAM) in a reaction catalyzed by catechol O-methyltransferase (COMT), indicating that tris-OH-M behaves like a catechol. Incubation of the monohydroxy metabolite with liver microsomes from phenobarbital-treated rats (PB microsomes) yields the dihydroxy and the trihydroxy metabolites. Furthermore, the time course of methoxychlor metabolism by PB microsomes demonstrated a rapid appearance and disappearance of the monohydroxy metabolite with the subsequent formation of the dihydroxy and trihydroxy metabolites. On the basis of these findings, it is proposed that the metabolic route of methoxychlor by mono-oxygenases involves sequential demethylations to the dihydroxy derivative and a subsequent ring hydroxylation.     

Determination of rat urinary metabolites of icariin in vivo and estrogenic activities of its metabolites on MCF-7 cells

To confirm that the estrogenic activity of icariin is based on the close relationship between the structures of its metabolites and the effects of their binding to target hormone receptors, the metabolism of icariin in rat urine was analyzed in vivo, and the estrogenic activity of its metabolites was measured in cultured MCF-7 human breast cancer cells, respectively. By CZE analysis, peaks corresponding to the relative positions of desmethylicaritin and icaritin were observed in the urine sample. Structural analysis following LC-ESI-MS revealed molecular ions [M-H]- of 512.8, 353.3, and 367.0 for metabolites consistent with those of icariside II, desmethylicaritin, and icaritin. Icariin, icaritin, and desmethylicaritin were analyzed for their estrogenicity using MCF7-cell proliferation (E-screen test). MCF-7 cells were cultured in an estradiol free medium and then exposed to 10(-8) to 10(-5) mol/L icariin and its metabolites, icaritin and desmethylicaritin, for 6 days. Icaritin and desmethylicaritin significantly increased cell proliferation, and the cell number increased from 1.61 to 4.14 fold compared with the untreated control, but the parent compound icariin failed to exhibit this effect. These results indicate that icariin is converted to icariside II, desmethylicaritin, and icaritin in vivo, and that the latter two act as a weak xenoestrogen on MCF-7 cells.     

Possible estrogenic and/or antiandrogenic effects of methoxychlor on prolactin release in male rats

Methoxychlor (MTX) is a pesticide currently used as a substitute for dichloro-diphenyl-trichloroethane (DDT). This organochloride insecticide has some estrogenic properties, and may modify the feedback mechanisms of steroids on the hypothalamus and pituitary. This work was undertaken to explore the possible effects of MTX on the episodic prolactin release and to analyze whether these effects are mediated by dopamine (DA), luteinizing hormone (LH), and/or testosterone. Adult male Sprague-Dawley rats were administered 25 mg/kg/day of MTX in sesame oil for 30 days. Control animals received vehicle only. The episodic prolactin release and plasma testosterone levels were measured as well as the dopamine (DA) content in the median eminence (ME) and in the anterior (AH), mediobasal (MBH), and posterior (PH) hypothalamus. The mean serum prolactin levels and absolute pulse amplitude of the hormone increased after the xenobiotic administration, whereas its relative pulse amplitude diminished. The frequency and duration of prolactin peaks and its half-life were not modified by the treatment with the pesticide. On the other hand, methoxychlor decreased the DA content in ME, increased it in AH, and did not change it in MBH or PH. MTX decreased plasma levels of LH and testosterone compared with controls. These data suggest estrogenic and antiandrogenic effects of MTX on the episodic prolactin secretion; the changes observed in prolactin release could be explained, at least in part, by some of the changes of DA at the hypothalamus and of LH at the pituitary, but not by changes of testosterone at the testicular level.     

Evaluation of the stereoselective biotransformation of permethrin in human liver microsomes: Contributions of cytochrome P450 monooxygenases to the formation of estrogenic metabolites

Permethrin (PM) is a pyrethroid insecticide that exists as 4 enantiomers. Biotransformation of PM to estrogen receptor agonists (3-phenoxybenzyl alcohol (PBOH) and 3-(4′-hydroxyphenoxy)-benzyl alcohol (3,4 PBOH)) has been shown to be stereoselective in other vertebrate species. This study evaluated the biotransformation of PM enantiomers in human liver microsomes and with recombinant CYP3A4 and CYP2C19. PBOH and 3,4 PBOH were the only metabolites detected from in vitro incubations including each of the 4 enantiomers of PM with 1R-trans PM having the most efficient NADPH-catalyzed biotransformation to both metabolites. Coincubation with the CYP inhibitor ketoconazole and time course experiments with liver microsomes and recombinant CYP2C19 and CYP3A4 indicated CYP-catalyzed stereoselective cleavage of the ester followed by 4-hydoxylation to 3,4′ PBOH. These data indicate potential dispositional differences may occur with PM enantiomers and a shift in putative molecular targets. While cleavage of pyrethroid esters lead to detoxification of the acute neurological effects, formation of the benzyl alcohol and hydroxylated metabolite may lead to estrogenic responses, since each of these metabolites are estrogen receptor ligands.     

Effect of chlormethiazole on hepatic monooxygenases activity in vivo

Summary Chlormethiazole is a strong inhibitor of cytochrome P-450-dependent monooxygenases in isolated human liver microsomes. To assess its effect in vivo, we measured the pharmacokinetic parameters of antipyrine (1.2 g orally) and tolbutamide (0.5 g i. v.) before and after administration of chlormethiazole 314 mg b. d. for 2 days to 8 healthy volunteers.The elimination of neither substance was affected, indicating that chlormethiazole did not inhibit in vivo the cytochrome P-450 isozymes responsible for the elimination of antipyrine and tolbutamide.     

Modification of the noradrenergic cyclic AMP generating system in the rat limbic forebrain by amphetamine: Role of its hydroxylated metabolites

Summary The cyclic AMP responses to norepinephrine (NE) in slices of the rat limbic forebrain after the administration of (S)-amphetamine and the role of its para- and -hydroxylated metabolites were investigated. The chronic but not acute administration of (S)-amphetamine to rats causes a significant reduction in the sensitivity of the cyclic AMP generating system to NE without changing the basal level of the nucleotide. This change in the sensitivity of the system is not associated with a change in the EC₅₀ value for NE but reflects mainly a decrease in the maximal response. After withdrawal of the drug, the cyclic AMP response to NE returned to control values within 4 days. In vitro, (S)-p-hydroxyamphetamine (POH) and all stereoisomers of p-hydroxynorephedrine (PHN) except (S,R)-PHN enhanced the cyclic AMP response to low concentrations of NE. Since (S,R)-PHN [like the other stereoisomers of PHN and (S)-POH] inhibited in a dose-dependent manner the high affinity uptake of ³H-NE into crude synaptosomal fractions of the limbic forebrain, the results might suggest that the presumably physiological enantiomer of PHN also exerts receptor blocking properties. The inhibition by (S,R)-PHN of the cocaine induced potentiation of the cyclic AMP response to NE supports this supposition. The results provide evidence that the hydroxylated metabolites of (S)-amphetamine, (S)-POH and (S,R)-PHN, modify the action of the parent drug on central noradrenergic function at the level of the NE receptor coupled adenylate cyclase system.     

Comparative in vitro metabolism of methoxychlor in male and female rats: metabolism of demethylated methoxychlor metabolites by precision-cut rat liver slices

The in vitro metabolism of demethylated methoxychlor (MXC) metabolites, mono-OH-MXC (including (R)- and (S)-isomers) and bis-OH-MXC (mono- and bis-demethylated MXC, respectively), was conducted using precision-cut liver slices to understand the sex-dependent metabolism of MXC in rats. In the study with bis-OH-MXC, the substrate underwent extensive conjugation producing its glucuronide and glucuronide/sulphate diconjugate, and no significant sex differences were found. On the contrary, the metabolism of mono-OH-MXC appeared to exhibit the sex differences in the metabolic profiles. The bis-OH-MXC glucuronide and glucuronide/sulphate diconjugate were major metabolites in male rat, whereas the mono- and bis-OH-MXC glucuronides predominated in the female. The per cent distribution of the demethylated products (sum of bis-OH-MXC derivatives) was approximately 90% for the male (for both isomers) and 81 (R-) to 56% (S-) for the female. The metabolic profiles in (S)-mono-OH-MXC, which is the predominant enantiomer preferentially produced in MXC metabolism in rats, showed a similar pattern to that of MXC compared with the (R)-isomer. The results indicate that the sex differences in oxidative demethylation of the intermediate, (S)-mono-OH-MXC, could be one of the probable reasons for the sex-dependent metabolism of MXC in rats, and the stereo-structural preference of the contributing demethylase enzymes appear to be involved.     

Estrogen receptor alpha overexpressing mouse antral follicles are sensitive to atresia induced by methoxychlor and its metabolites

Methoxychlor (MXC) and its metabolites bind to estrogen receptors (ESRs) and increase ovarian atresia. To test whether ESR alpha (ESR1) overexpressing (ESR1 OE) antral follicles are more sensitive to atresia compared to controls, we cultured antral follicles with vehicle, MXC (1-100 μg/ml) or metabolites (0.1-10 μg/ml). Results indicate that MXC and its metabolites significantly increase atresia in ESR1 OE antral follicles at lower doses compared to controls. Activity of pro-apoptotic factor caspase-3/7 was significantly higher in ESR1 OE treated antral follicles compared to controls. ESR1 OE mice dosed with MXC 64 mg/kg/day had an increased percentage of atretic antral follicles compared to controls. Furthermore, pro-caspase-3 levels were found to be significantly lower in ESR1 OE ovaries than controls dosed with MXC 64 mg/kg/day. These data suggest that ESR1 OE ovaries are more sensitive to atresia induced by MXC and its metabolites in vitro and in vivo compared to controls.     

Contrasting effects of ethylenethiourea on hepatic monooxygenases in rats and mice

The effects of ethylenethiourea (ETU) on the hepatic xenobiotic metabolizing system in rats and mice were investigated. Male rats and male mice were given oral doses of 50 and 75, or 50, 75, 100, 500, and 1,000 mg/kg for 3 days. The microsomal enzymes studied were aminopyrine N-demethylase, aniline hydroxylase, and cytochrome P-450. In rats, the activity of aminopyrine N-demethylase was reduced to values between 60 and 70% of controls 24 h after treatment. A decrease in aniline hydroxylase activity and cytochrome P-450 content was observed on the 3rd day after exposure. In mice, treatment with ETU resulted in an increase of cytochrome P-450 at all dose levels. The activity of aniline hydroxylase was significantly elevated in the groups receiving doses of 100 mg/kg and higher. Aminopyrine N-demethylase was unaffected by the treatment. The results suggest that there are qualitative differences between rats and mice after ETU exposure with respect to the response of the hepatic monooxygenases.     

Inhibition of hepatic glutathione transferases by propylthiouracil and its metabolites

The effects of propylthiouracil (PTU) and its metabolites on the activity of GSH transferases were examined using rat liver cytosol. PTU inhibited the enzyme activity toward both CDNB and DCNB in a concentration-dependent manner. At the concentration of 10 mM, PTU caused 25% inhibition, which was the maximum effect. PTU derivatives such as propyluracil and thiouracil showed the same effect as the parent compound. On the other hand, S-oxides of PTU such as PTU-SO2 and PTU-SO3, which were chemically synthesized by the oxidation of PTU, were more potent inhibitors of GSH transferases than the parent PTU. A significant inhibition was observed at a concentration of 0.1 mM of PTU S-oxides. At a concentration of 10 mM the S-oxides caused an 80% inhibition of the enzyme activity. PTU inhibited the transferase activity by competing with GSH but the S-oxides of PTU acted by another mechanism. In contrast to the effect on GSH transferases, PTU-SO3 had a weak inhibitory effect on GSH peroxidase activity. Thus, oxidation of PTU leads to products which are potent inhibitors of GSH transferases.     

Metabolism and toxicity of benzophenone in isolated rat hepatocytes and estrogenic activity of its metabolites in MCF-7 cells

The metabolism and cytotoxicity of benzophenone and estrogenic activity of its metabolites have been studied in freshly isolated rat hepatocytes and cultured MCF-7 human breast cancer cells, respectively. The incubation of hepatocytes with benzophenone (0.25-1.0 mM) elicited a concentration- and time-dependent cell death, accompanied by loss of intracellular ATP and depletion of adenine nucleotide pools. Benzophenone at a low-toxic level (0.25 mM) in the hepatocyte suspensions was converted to benzhydrol, p-hydroxybenzophenone and its sulfate conjugate, without marked loss of cell viability. The amounts of benzhydrol and sulfate conjugate increased with time. In contrast, addition of 2,6-dichloro-4-nitrophenol (an inhibitor of sulfotransferase; 0.1 mM), nontoxic to hepatocytes during the incubation period, enhanced benzophenone-induced cytotoxicity, and this effect was accompanied by a decrease in the formation of sulfate conjugate and increase in the amount of free p-hydroxybenzophenone. In another experiment, MCF-7 cells, estrogen-responsible breast cancer cells were cultured in estradiol free medium and then exposed to 10 nM-500 microM benzophenone or its metabolites for 6 days. Although at higher concentrations all the compounds were toxic, except for benzophenone and benzhydrol, 10-100 microM p-hydroxybenzophenone significantly increased cell proliferation. These results indicate that benzophenone is enzymaticaly converted to benzhydrol, p-hydroxybenzophenone and its sulphate conjugate in rat hepatocytes. Even if there is less free p-hydroxybenzophenone than benzhydrol and sulfate conjugate in hepatocyte suspensions, p-hydroxybenzophenone itself acts as a weak xeno-estrogen on MCF-7 cells.     

Pharmacokinetics of intravenous levosimendan and its metabolites in subjects with hepatic impairment

Levosimendan is a vasodilator used in the treatment of acute heart failure. In the present study, the effect of hepatic impairment on the pharmacokinetics of levosimendan and its 2 metabolites, OR-1855 and OR-1896 (pharmacologically active), was investigated in 12 healthy subjects and 12 subjects with moderate hepatic impairment due to alcoholic cirrhosis of the liver but with no heart failure. In addition, the effect of acetylator status on the pharmacokinetics of levosimendan, OR-1855, and OR-1896 was evaluated. Safety and tolerability of levosimendan were also assessed. Levosimendan was given as an intravenous infusion of 0.1 microg/kg/min for 24 hours. Levosimendan showed similar C(max), AUC, and elimination half-life (t(1/2)), with a mean (+/-SEM) t(1/2) of 0.9 +/- 0.0 hours in healthy subjects and 0.8 +/- 0.1 hours in hepatically impaired subjects, respectively (not significant). The t(1/2) of OR-1855 was 61 +/- 5 hours in healthy subjects and 82 +/- 3 hours (P < .01) in subjects with hepatic impairment. The t(1/2) of OR-1896 was 62 +/- 5 hours and 91 +/- 5 hours (P < .01), respectively. However, the AUCs of OR-1855 and OR-1896 were similar in healthy volunteers and hepatically impaired subjects. The effect of acetylator status was seen as higher C(max) and AUC of OR-1855 in slow acetylators. Correspondingly, higher C(max) and AUC of OR-1896 were observed in rapid acetylators. Levosimendan was well tolerated in both study groups. In conclusion, the pharmacokinetics of the parent drug levosimendan was unaltered in subjects with moderate hepatic impairment, whereas the elimination of the metabolites was prolonged. However, because the maximum duration of levosimendan infusion is 24 hours, dosing adjustments of levosimendan may not be required in subjects with impaired hepatic function.     

Comparative effects of ethanol administration on hepatic monooxygenases in rats and mice

The inducing effects of chronic ethanol ingestion on hepatic monooxygenases in Sprague-Dawley and Long-Evans rats, and A/J and C57BL/6J mice, were studied. Cytochrome P-450 content was significantly increased in livers of all animals receiving the experimental ethanol-containing liquid diet. The CO-difference spectra of microsomes from ethanol-treated animals showed a shift in the absorbance maximum to 451–452 nm, compared to the absorbance maximum of 450 nm observed with microsomes from control animals. Ethylmorphine N-demethylase and benzo[a]pyrene hydroxylase activities in livers of ethanol-treated animals were minimally affected. The shift in the absorbance maxima to longer wavelengths in the CO-difference spectrum and the minimal effects on the metabolism of ethylmorphine and benzo[a]pyrene demonstrate that ethanol differs in its inducing properties, when compared to the properties of the two widely used hepatic microsomal enzyme inducers, phenobarbital and 3-methylcholantrhene. In contrast to the minimal effects observed on the metabolism of ethylmorphine and benzo[a]pyrene, several fold increases were observed in hepatic 7-ethoxycoumarin 0-deethylase and aniline hydroxylase activities in the treated animals. Polyacrylamide gel electrophoresis of hepatic microsomes from those animals receiving ethanol revealed protein band(s) in the cytochrome P-450 molecular weight region, the intensities of which were markedly increased relative to that from control animals. The heme-associated peroxidase activity was also increased in the same molecular weight region. The results of the present spectral, catalytic, and electrophoretic studies demonstrate that in mice, as in rats, chronic ethanol treatment causes the induction of specific cytochrome(s) P-450 with preferential activity toward aniline and 7-ethoxycoumarin.     

Effect of allyl isothiocyanate on hepatic monooxygenases and serum transferases in rats

The effect of allyl isothiocyanate (AITC) on the activities of liver monooxygenases and serum transferases was investigated in male rats. AITC was given in oral doses of 0, 50, 100 or 150 mg/kg bw for 3 consecutive days. Increased relative liver weights and decreased activities of hepatic aminopyrine-N-demethylase, p-nitroanisole-O-demethylase and aniline-p-hydroxylase were observed in all treatment groups. The administration of AITC at dose levels of 100 and 150 mg/kg caused a statistically significant increase in the serum aspartate aminotransferase activity.     

Comparisons of hepatic and renal cytochromes P-450-dependent monooxygenases from fuzzy and Sprague-Dawley rats.

The differences in monooxygenase activities between the fuzzy rat, a variant of the hairless rat, and the Sprague-Dawley rat were examined. Benzo(a)pyrene hydroxylase and benzphetamine N-demethylase activities and cytochrome P-450 contents were significantly lower in the livers of fuzzy rats than in the livers of the Sprague-Dawley rats. The hydroxylase activity in the kidneys of the two strains were not significantly different from each other. In comparison to the Sprague-Dawley rats, the induction of these enzymic activities by phenobarbital and 3-methylcholanthrene were of a lesser magnitude in the fuzzy rats, indicating that regulation of the hepatic monooxygenases differed in the two strains. Immunoblot data showed that cross-reactivity between antirat P-450IIB1 and microsomal protein from phenobarbital-treated rats appeared to be lower in the fuzzy rat when compared with the Sprague-Dawley rat. These differences in the constitutive enzymes and the differences in the induction of hepatic monooxygenases between the two strains of rats may be important determinants in studies involving metabolism of drugs and other chemicals following cutaneous exposure.     

NK细胞及其受体在肝纤维化中的作用

免疫系统在肝纤维化的发展过程中起到重要的作用,近年来的研究发现,NK细胞及其受体积极参与了抑制肝纤维化的过程,NK细胞对活化型肝星状细胞具有靶向性杀伤作用。该文综述NK细胞及其受体在肝纤维化中的作用,期望NK细胞能成为今后治疗肝纤维化研究中的一个新的药物干预靶标。     

Inhibition of human hepatic and placental xenobiotic monooxygenases by imidazole antimycotics

Three imidazole antimycotic drugs, ketoconazole, clotrimazole and miconazole, were studied to characterize the inhibition of aryl hydrocarbon hydroxylase (AHH), 7-ethoxycoumarin O-deethylase (ECDE) and 7-ethoxyresorufin O-deethylase (ERDE) activities in human liver and placenta in vitro in comparison with liver enzymes from control, phenobarbital (PB) and 3-methylcholanthrene (MC) pretreated rats. All three compounds inhibited rat liver enzymes, although MC pretreatment seemed to lead to a resistance of inhibition relative to PB-treated and control animals. There were large differences in the extent of inhibition of human hepatic and placental activities. Furthermore, while the type of inhibition of the hepatic ERDE was competitive or mixed, that of the placental enzyme cannot be described in ordinary terms of inhibition kinetics. Ketoconazole and clotrimazole were relatively potent inhibitors of maternal cigarette smoking-induced placental ECDE activities (IC50 values from 0.5 microM to 5 microM), whereas much less inhibition of the placental AHH activity was obtained with ketoconazole and miconazole (IC50 values from 50 microM to 500 microM). In most cases, hepatic enzymes were less sensitive to antimycotics than placental activities. This was in contrast with results from rat enzyme studies, in which MC pretreatment seemed to decrease the inhibitory response.