Proliferative Response and Renewal of Hepatic Function Following Cocaine Administration In Mice

ABSTRACT Experiments were undertaken to investigate the hepatic, temporal and spatial sequence of events following a single injection of cocaine, a known hepatotoxin. Centrilobular necrosis was induced in male mice (DBA/2Ha) 24 hr post-injection (PI). the time course of hepatic damage was monitored by assaying microsomal cytochrome P₄₅₀ content, the activity of microsomal FAD-containing monooxygenase (FAD-M) and by determining the levels of serum glutamic pyruvic transaminase (SGPT). Kinetics of the onset of DNA synthesis were determined by autoradiography of thin liver sections and the incorporation of ³H-methyl thymidine into perchloric-acid-precipitable material. There was no increase in the labelling index (LI) and thymidine (TdR) incorporation in the first 24 hr PI. the LI rose to 14.6% and TdR incorporation showed a 5-fold increase over control values 48 hr PI. Both indices declined slightly at 72 hr PI and returned to control values by 96 hr PI. In contrast, the cytochrome P₄₅₀ content declined by 69%, the FAD-M activity dropped by 40% and the SGPT levels showed an 18-fold increase at 24 hr PI, coincident with cytological signs of necrosis. Although the patterns of recovery differed between these selected enzymes, normal values were attained by 96 hr PI. These results demonstrate that cell damage and hepatic dysfunction precede the onset of DNA synthesis and subsequent proliferation.     

Altered sexual differentiation of hepatic uridine diphosphate glucuronyltransferase by neonatal hormone treatment in rats

The hepatic microsomal enzyme UDP-glucuronyltransferase undergoes a complex developmental pattern in which enzyme activity is first detectable on the 18th day of gestation in rats. Prepubertal activities are similar for males and females. However, postpubertal sexual differentiation of enzyme activity occurs in which male activities are twice those of females. Neonatal administration of testosterone propionate or diethylstilboestrol to intact animals resulted in lowered UDP-glucuronyltransferase activity in liver microsomal fractions of adult male rats, whereas no changes were observed in the adult females and prepubertal male and female animals. Neonatal administration of testosterone propionate and diethylstilboestrol adversely affected male reproductive-tract development as evidenced by decreased weights of testes, seminal vesicles and ventral prostate. Diethylstilboestrol also markedly decreased spermatogenesis. Hypophysectomy of adult male rats resulted in negative modulation of microsomal UDP-glucuronyltransferase and prevented the sexual differentiation of enzyme activity. In contrast hypophysectomy had no effect on female UDP-glucuronyltransferase activity. A pituitary transplant under the kidney capsule was not capable of reversing the enzyme effects of hypophysectomy, therefore suggesting that the male pituitary factor(s) responsible for positive modulation of UDP-glucuronyltransferase might be under hypothalamic control in the form of a releasing factor. Neonatal testosterone propionate and diethylstilboestrol administration apparently interfered with the normal sequence of postpubertal UDP-glucuronyltransferase sexual differentiation.     

Ethanol reduces hepatic estrogen-2-hydroxylase activity in the male rat

Brief exposure to intoxicating levels of ethanol in the male rat produced a marked reduction in a major hepatic enzyme responsible for estrogen metabolism (estrogen-2-hydroxylase). After 4 days of ethanol administration the specific activity of this enzyme decreased by 70% and remained decreased for 6 days following alcohol withdrawal. Enzyme activity returned to control levels by two weeks. However, if animals were retreated with ethanol for one day each week the enzyme activity remained low. Kinetic analysis of the enzymatic activity from ethanol-treated rats showed a decrease in specific activity (Vmax) with no alteration in substrate affinity (apparent Km). The decrease in enzyme activity persisted long after ethanol disappeared from the blood and concentrations of ethanol from 20–100 mM had no effect on enzyme activity when added $\text{in vitro}$. A similar effect of ethanol on hepatic estrogen metabolism in humans may partially explain the elevated serum estrogen levels and the signs of hyperestrogenization observed in male alcoholic patients.     

The hypophysis in the regulation of androgen and oestrogen dependent enzyme activities of steroid hormone metabolism in rat liver cytosol.

In order to determine whether the gonadal and hypophyseal modes of regulation recently reported for the microsomal enzymes of hepatic steroid metabolism are also valid for cytoplasmic enzymes, three enzymes whose activities exhibit sex differences (male:female activity ratio shown in brackets), 5beta-reductase(1.7:1), 20alpha-hydroxysteroid dehydrogenase(5 : 1) and 17beta-hydroxysteroid dehydrogenase (4:1), as well as one enzyme whose activity shows no sex difference, 3beta-hydroxy-delta5-steroid dehydrogenase, were investigated after various interferences with the endocrine balance (gonadectomy, hypophysectomy, combination of both operations, administration of testosterone or oestradiol). From the results of this and a previous study the following statements can be made about the endocrine control of hepatic enzyme activities. Those enzymes whose activities show sex differences are either androgen or oestrogen dependent; the sex hormone acts in either an inductive or repressive manner. 1) Criteria for androgen dependency are the feminization of enzyme activity after testectomy or inhibition of testicular function by administration of oestradiol; masculinization of the enzyme activity after administration of testosterone to male or female castrates. Using these criteria the following enzymes investigated in this laboratory fall into this category: all microsomal enzymes which show sex differences in their activity (3alpha-, 3beta-, delta4-3beta, 20-hydroxysteroid dehydrogenase; cortisone alpha-reductase; steroid hydroxylases and 16alpha-hydroxylase) as well as the cytoplasmic 20alpha-hydroxysteroid dehydrogenase. Apart from the single exception of 20alpha-hydroxy-steroid dehydrogenase the presence of the hypophysis is obligatory for the androgen to be effective. The hypophysis does not only work in a permissive manner, but participates in establishing the sex specific activity levels in a manner which is antagonistic to the androgen action. 2) Criteria for oestrogen dependency are that the female animal reacts to gonadectomy, as well as to the inhibition of ovarian function after testosterone administration, by a masculinization of the enzyme activities. After administration of oestradiol, but not gonadectomy, the male animal exhibits typical female activity. Using these criteria the cytoplasmic 5beta-reductase and 17beta-hydroxysteroid dehydrogenase are oestrogen dependent. The repressive oestrogen effect observed on 17beta-hydroxysteroid dehydrogenase is antagonistic to hypophyseal action, whereas in the case of 5beta-reductase it is synergistic. 3) The activities of cytoplasmic 3beta-hydroxy-delta5-steroid dehydrogenase and microsomal 7alpha-hydroxylase show no sex differences and are not influenced by any interference with the endocrine balance.     

Genetic variation in androgen regulation of ornithine decarboxylase gene expression in inbred strains of mice

Previous studies have indicated that androgen regulation of certain gene products in murine kidney is genetically controlled. In the present work, the expression of renal ornithine decarboxylase (ODC) gene(s) was used as a biological marker to study androgen responsiveness of eight inbred strains of mice (A/J, C57BR/cdJ, 129/J, C57L/J, BALB/cJ, SM/J, RF/J, and C57BL/6J). Kidneys of untreated females from these strains did not have significantly different basal ODC activities or ODC mRNA concentrations. However, renal enzyme concentrations in intact male mice exhibited marked strain-dependent variation; three strains (RF/J, SM/J, and C57BR/cdJ) had 5- to 20-fold higher activities than the other five strains. Renal ODC mRNA content showed similar genetic variability in the male mice; animals with highest enzyme activity had higher mRNA levels than those with low activity. These results could not be explained by differences in either serum testosterone levels or renal nuclear androgen receptor content, suggesting that the animals were differentially sensitive to endogenous androgens. To evaluate further the androgen regulation of ODC gene expression, female mice were treated with testosterone-releasing implants for 5-7 days. The two strains (A/J and C57BL/6J) that had low enzyme activity in response to endogenous testosterone in male mice also showed blunted responses to exogenous androgen administration, as measured by the induction of ODC and its mRNA. The relative distribution of the two mRNA species coding for ODC (2.2 and 2.7 kb in size) exhibited strain-dependent variation that did not, however, correlate with the androgen responsiveness. Studies of the mRNA levels in reciprocal F1 hybrids of C57BR/cdJ and C57BL/6J mice suggested that androgen sensitivity of ODC gene expression, at least in these crosses, was inherited in an autosomal dominant manner.     

Proliferative response and renewal of hepatic function following cocaine administration in mice

Experiments were undertaken to investigate the hepatic, temporal and spatial sequence of events following a single injection of cocaine, a known hepatotoxin. Centrilobular necrosis was induced in male mice (DBA/2Ha) 24 hr post-injection (PI). The time course of hepatic damage was monitored by assaying microsomal cytochrome P450 content, the activity of microsomal FAD-containing monooxygenase (FAD-M) and by determining the levels of serum glutamic pyruvic transaminase (SGPT). Kinetics of the onset of DNA synthesis were determined by autoradiography of thin liver sections and the incorporation of 3H-methyl thymidine into perchloric-acid-precipitable material. There was no increase in the labelling index (LI) and thymidine (TdR) incorporation in the first 24 hr PI. The LI rose to 14.6% and TdR incorporation showed a 5-fold increase over control values 48 hr PI. Both indices declined slightly at 72 hr PI and returned to control values by 96 hr PI. In contrast, the cytochrome P450 content declined by 69%, the FAD-M activity dropped by 40% and the SGPT levels showed an 18-fold increase at 24 hr PI, coincident with cytological signs of necrosis. Although the patterns of recovery differed between these selected enzymes, normal values were attained by 96 hr PI. These results demonstrate that cell damage and hepatic dysfunction precede the onset of DNA synthesis and subsequent proliferation.     

Effect of herb supplement on hepatic enzyme activities in ddY mice.

Plasma glucose and lipid concentrations and hepatic enzyme activities were measured in male ddY mice supplemented with the herb, Echevaria glauca, to examine the effect of herbal treatment. In mice supplemented with the herb, plasma triglyceride (TG) and free fatty acid (FFA) concentrations decreased and hepatic glycolytic enzyme and glutathione peroxidase (GSHpx) activities increased significantly compared with those in the non-treated control mice. These increases in hepatic enzyme activities were not fully dose-dependent, however the higher dose and longer duration with herb supplement induced increases in the enzyme activities. It was found that dietary herb supplement caused an acceleration of hepatic function, judged by increased activities of glycolytic enzyme and GSHpx in ddY mice.     

Hepatic phase II biotransformation in C57Bl/KsJ db/db mice: comparison to that in Swiss Webster and 129 REJ mice

1. Cytochrome P-450 concentrations were similar in male and female carrier (db/+) and diabetic (db/db) mice. Benzphetamine N-demethylase and styrene oxide hydrolase activities were 47 and 65% lower in db/+ than in db/db mice. 2. UDP-Glucuronosyltransferase activity toward 1-naphthol, estrone and diethylstilbestrol was not different between db/db and db/+, but was 40% higher in db/db mice toward testosterone. 3. Glutathione S-transferase activity toward 1-chloro-2,4-dinitrobenzene and ethacrynic acid was 47 and 59% lower in db/db mice than in male db/+ mice. Female db/+ mice had similar activities to those found in diabetic animals. 4. The differences in enzyme activity between hyperinsulinemic and normal animals suggest that insulin can influence both phase I and phase II biotransformations. 5. Enzyme activities in db/+ and db/db mice were compared to those in 129 REJ and Swiss Webster mice.     

Plasma amine oxidases in Wilson's disease

Plasma Mono- and Diamine-Oxidase activities (MAO and DAO), two copper containing enzymes, were estimated in 5 patients with Wilson's disease, without treatment and during D-Penicillamine treatment. Ceruloplasmin and “free” copper plasma levels were simultaneously measured. MAO was elevated in all cases, while DAO was within normal limits.D-Penicillamine administration did not result in significant reductions of these enzyme activities. It is likely that alterations of copper metabolism induced by Wilson's disease and by D-Penicillamine administration do not affect the activity of MAO or DAO. The increase in MAO activity in Wilson's disease probably results from the hepatic fibrosis.     

Effect of 3-methylcholanthrene administration on hepatic ribonucleic acid polymerase activities

The effect of the in vivo administration of 3-methylcholanthrene upon rat hepatic RNA polymerase activities was investigated. Aggregrate RNA polymerase activity assayed in liver nuclei was stimulated by 33% over control. Characterization of the individual RNA polymerase activities by virtue of their differential sensitivity to α-amanitin revealed that RNA polymerase I activity was maximally increased by 70% at approx. 16 h post-administration of the polycyclic hydrocarbon; RNA polymerase II activity was stimulated by 33%. The kinetics of RNA polymerases I and II stimulation differed in that the nucleolar enzyme's activity increased earlier and peaked later. RNA polymerase III activity was not significantly different from control. Phenobarbital, another inducer of the mixed function oxidases, had essentially no effect on the activity of hepatic RNA polymerases. Solubilization of the RNA polymerases followed by separation on diethylaminoethyl (DEAE)-Sephadex allowed for a comparison of the treated and control enzymatic activities using a common exogenous template. While no qualitative difference was evident, RNA polymerases I and II isolated from 3-methylcholanthrene-treated rats again were more active than control, indicating an effect of the polycyclic hydrocarbon at the level of the enzyme.     

Developmental aspects of polyamine-oxidizing enzyme activities in the mouse kidney. Effects of testosterone

Summary In the present study developmental patterns of renal polyamineoxidizing enzymes polyamine oxidase (PAO) and diamine oxidase (DAO) in male and female ICR mice were demonstrated. The effects of testosterone (10g/100g body weight) on renal PAO and DAO activities were also studied. The differences between sexes in both PAO and DAO activities were most clearly expressed in the immature kidney. At the age of 20 days PAO and DAO activities were 1.52 fold (p < 0.01) and 1.75 (p < 0.02) respectively higher in male mouse kidney than in female. Maturational processes reflected in significant increases in polyamine- oxidizing enzyme activities mainly in female mouse kidney, comparable with the gain in the kidney wet weight. Our data show that testosterone is able to influence renal PAO and DAO activities in addition to the well-known stimulation of polyamine biosynthesis. The hormonal effects were sex and age dependent. The influence of testosterone on renal PAO activity was mainly age dependent. The slight stimulation of renal PAO activity observed in 20- and 50-day old mice, 24h after testosterone administration, change with a decrease in the enzyme activity at the age of 70 days. The effects of testosterone on renal DAO activity were mainly sex dependent. Testosterone caused stimulation of DAO activity with a very close magnitude (nearly twice) in female mouse kidney, independently of the age of mice. In contrast, in male mice the hormone treatment resulted in a statistically significant increase in renal DAO activity at the age of 70 days (.1.3 fold, p < 0.05) only. It could be suggested that our data indicate the different contribution of renal PAO and DAO in androgen regulation of polyamine levels, depending on sex and the stage of the postnatal development.     

Sex differences in the hydroxylation of cholecalciferol and of 5 beta-cholestane-3 alpha, 7 alpha, 12 alpha-triol in rat liver.

The effect of sex hormones on hydroxylation of cholecalciferol ('vitamin D3') and of 5 beta-cholestane-3 alpha, 7 alpha, 12 alpha-triol has been investigated in female- and male-rat livers. The mitochondrial cholecalciferol 25-hydroxylase and C27-steroid 27-hydroxylase activities were respectively 4.6- and 2.7-fold higher in female- than in male-rat livers. The microsomal 1 alpha-hydroxycholecalciferol 25-hydroxylase was 2.8-fold higher in male- than in female-rat liver. No significant difference was found in the microsomal 25-hydroxylation of 5 beta-cholestane-3 alpha, 7 alpha, 12 alpha-triol. Liver microsomes (microsomal fractions) from male, but not from female, rats also catalysed 1-hydroxylation of 5 beta-cholestane-3 alpha, 7 alpha, 12 alpha-triol. Injection of testosterone into female rats decreased the mitochondrial cholecalciferol 25-hydroxylase and C27-steroid 27-hydroxylase activities, but not to a statistically significant extent. Testosterone treatment had no effect on the microsomal hydroxylases in female-rat liver. Injection of oestradiol valerate to male rats resulted in increased activities of both mitochondrial hydroxylases to the same levels as those of control females, while the microsomal enzyme activities decreased. The present results indicate that sex hormones exert a regulatory control on the mitochondrial cholecalciferol 25-hydroxylase and C27-steroid 27-hydroxylase activities.     

Effects of orchidectomy and testosterone replacement on mouse pyrrolidone carboxypeptidase activity in the HPA axis.

Pyrrolidone carboxypeptidase, also known as pyroglutamyl aminopeptidase, removes pyroglutamyl terminal residues from biologically active peptides such as thyrotropin-releasing hormone. The aim of the present work was to study the influence of orchidectomy and testosterone replacement on soluble (pyrrolidone carboxypeptidase type I) and membrane-bound (pyrrolidone carboxypeptidase type II) activities in the hypothalamus-pituitary-adrenal axis. Forty male mice (Balb/C) were distributed into five groups: sham-operated controls, orchidectomized, and orchidectomized treated with increasing doses of testosterone in each group (3, 6 and 12 mg/kg). In the hypothalamus, orchidectomy increased pyrrolidone carboxypeptidase type I, whereas the highest dose of testosterone returned this activity to control levels. In the pituitary, neither pyrrolidone carboxypeptidase type I nor type II activities changed after orchidectomy, although both activities increased after administration of testosterone in both cases. On the other hand, orchidectomy increased pyrrolidone carboxypeptidase type I and type II activities in adrenal glands, while testosterone replacement returned it to control levels. These results suggest that testosterone differentially modulates pyrrolidone carboxypeptidase type I and type II activities, and therefore also their endogenous substrate regulation. Thus, the influence of sex hormones in the physiology of the HPA axis through the modulation of the Pyrrolidone carboxypeptidase type I and type II activities is of great importance on stress and neuropathology associated with HPA dysfunction     

Regulation by testosterone of the glucosamine-6-phosphate synthase activity in the male reproductive organs of rat

Accessory reproductive organs of male rat were found to contain high activities of glucosamine-6-phosphate synthase (glucosaminephosphate isomerase (glutamine-forming), EC 5.3.1.19). Castration caused drastic reduction (75%) in the enzyme activity of ventral prostate. Testosterone propionate administration restored the enzyme activity while cortisol and estradiol-17β did not cause any effect. Cycloheximide blocked the stimulation caused by testosterone.     

Phase I and II liver enzyme activities in juvenile alligators (Alligator mississippiensis) collected from three sites in the Kissimmee-Everglades drainage, Florida (USA)

We examined CYP1A (measured using hepatic EROD and MROD activities) and glutathione-S-transferase (GST) activities in juvenile alligators (Alligator mississippiensis) collected from three sites with varying contamination in the Kissimmee-Everglades drainage in south Florida. We hypothesized that contaminants present in areas with intermediate or higher contaminant concentrations would alter hepatic enzyme activities in juvenile alligators from those sites when compared to hepatic enzyme activity in animals from the area with the least contamination. EROD activity was found to be higher in animals from the site with lower reported levels of contamination relative to those from the site with the highest reported contamination suggesting an inhibition of CYP1A expression or activity. No differences among animals from the three sites were observed for hepatic MROD and GST activities. A significant negative relationship between EROD, MROD, and GST activities and body size was exhibited in alligators from the site with the lowest contamination. No relationship between body size and hepatic enzyme activity was found in animals from the sites with intermediate and higher contamination, suggesting that contaminants present at these sites act to alter this relationship. No correlation was observed in this study between plasma steroid concentrations (estradiol-17 beta or testosterone) and hepatic EROD, MROD, or GST activities.     

Suppression of oxidative stress in aging NZB/NZW mice: effect of fish oil feeding on hepatic antioxidant status and guanidino compounds

Oxidative stress caused by excessive reactive species (RS) and lipid peroxidation is known to be casually linked to age-related inflammation. To test the hypothesis that fish oil (FO) intake has a beneficial effect on nephritis due to its suppressive action of oxidative stress and the enhancement of antioxidant defenses, we examined the effect of dietary FO on various oxidative stress-related parameters and guanidino compound (GC) levels using (NZB × NZW) F₁ (B/W) mice. These mice were fed diets supplemented with either 5% corn oil (control) or 5% FO. At 4 and 9 months of age, the hepatic oxidative status was estimated by assessing RS generation produced from xanthine oxidase, the prostaglandin pathway and lipid peroxidation. To evaluate the effect of FO on redox status, including antioxidant defenses, GSH and GSSG levels and antioxidant enzyme activities were measured. To correlate the extent of oxidative status with the nephritic condition, creatinine, guanidino acetic acid and arginine levels were measured. Results indicated that increased levels of lipid peroxidation, RS generation and xanthine oxidase activity with age were all significantly suppressed by FO feeding. Furthermore, reduced GSH levels, GSH/GSSG ratio and antioxidant enzyme activities in the FO-fed mice were effectively enhanced compared to the corn oil-fed mice. Among several GCs, the age-related increase of creatinine level was blunted by FO. Based on these results, we propose that dietary FO exerts beneficial effects in aged, nephritic mice by suppressing RS, superoxide and lipid peroxidation, and by maintaining a higher GSH/GSSG ratio and antioxidant enzyme activities.     

Expression of major HDL-associated antioxidant PON-1 is gender dependent and regulated during inflammation

Paraoxonase 1, an HDL-associated enzyme that confers antioxidant activity on HDL, and its activity in serum have been correlated with protection against atherosclerosis, an oxidative disease. However, serum PON-1 activity is highly variable and its regulation is complex, involving both genetic and environmental factors. It is influenced by gender and inflammation, two important factors in atherosclerosis. Serum PON-1 activity has been shown to be lower in male mice and is decreased in male Syrian hamster during inflammation. Here we show that male mice had lower hepatic PON-1 mRNA that increased by 170% after castration. Our data also suggested that this effect was testes but not plasma testosterone dependent. Ovariectomy had no effect on PON-1 mRNA in female mice. LPS caused hepatic PON-1 mRNA to decrease further in male mice, and to increase moderately in female mice. Anti-inflammatory dexamethasone enhanced PON-1 mRNA level by 2-fold in male and female LPS-treated mice, and increased PON-1 expression by 8-fold in Hepa cell, a mouse hepatoma cell line. Therefore, antioxidant PON-1 is regulated at the mRNA level in a gender-specific manner by proinflammatory LPS and anti-inflammatory dexamethasone.     

Several distinct enzymes catalyze 20alpha-hydroxysteroid dehydrogenase activity in mouse liver and kidney

The effects of flavonoids and quinones on NADPH- and NADH-dependent 20alpha-hydroxysteroid dehydrogenase (20alpha-HSD) activities were examined in cytosolic fractions from the liver and kidney of mice. Judging from the data for the inhibition of NADPH- and NADH-dependent 20alpha-HSD activities by flavonoids and quinones, enzyme catalyzing renal NADPH-dependent 20alpha-HSD activity was found to be distinct from enzyme(s) catalyzing hepatic NADPH- and NADH-dependent 20alpha-HSD activities. Sulfobromophthalein (SBP) had little ability to inhibit hepatic NADPH-dependent 20alpha-HSD activity and bromophenol blue (BPB) exhibited a weak activation against the enzyme activity, whereas SBP and BPB were potent and moderate inhibitors, respectively, of hepatic NADH-dependent 20alpha-HSD activity. Thus, enzyme catalyzing hepatic NADPH-dependent 20alpha-HSD activity appeared to be distinct from enzyme catalyzing hepatic NADH-dependent 20alpha-HSD activity. The data for the pH profiles of hepatic NADPH- and NADH-dependent 20alpha-HSD activities also led us to the conclusion. Based on these results, we propose the possibility that several distinct enzymes catalyze NADPH- and NADH-dependent 20alpha-HSD activities in cytosolic fractions from the liver and kidney of mice.     

Social Isolation-Induced Territorial Aggression in Male Offspring Is Enhanced by Exposure to Diesel Exhaust during Pregnancy

Diesel exhaust particles are a major component of ambient particulate matter, and concern about the health effects of exposure to ambient particulate matter is growing. Previously, we found that in utero exposure to diesel exhaust affected locomotor activity and motor coordination, but there are also indications that such exposure may contribute to increased aggression in offspring. Therefore, the aim of the present study was to test the effects of prenatal diesel exhaust exposure on social isolation-induced territorial aggression. Pregnant mice were exposed to low concentrations of diesel exhaust (DE; mass concentration of 90 μg/m³: DE group: n = 15) or clean air (control group: n = 15) for 8 h/day during gestation. Basal locomotion of male offspring was measured at 10 weeks of age. Thereafter, male offspring were individually housed for 2 weeks and subsequently assessed for aggression using the resident−intruder test at 12 weeks of age, and blood and brain tissue were collected from the male offspring on the following day for measuring serum testosterone levels and neurochemical analysis. There were no significant differences in locomotion between control and DE-exposed mice. However, DE-exposed mice showed significantly greater social isolation-induced territorial aggressive behavior than control mice. Additionally, socially-isolated DE-exposed mice expressed significantly higher concentrations of serum testosterone levels than control mice. Neurochemical analysis revealed that dopamine levels in the prefrontal cortex and nucleus accumbens were higher in socially isolated DE-exposed mice. Serotonin levels in the nucleus accumbens, amygdala, and hypothalamus were also lower in the socially isolated DE-exposed mice than in control mice. Thus, even at low doses, prenatal exposure to DE increased aggression and serum testosterone levels, and caused neurochemical changes in male socially isolated mice. These results may have serious implications for pregnant women living in regions with high levels of traffic-related air pollution.     

Strain-differences and inducibility of microsomal oxidative enzymes in Drosophila melanogaster flies

Some basic characteristics of the enzyme system involved in the oxidative metabolism of xenobiotic compounds were investigated in Drosophila melanogaster flies. Attention was focussed on (1) the normal levels of these enzymes and their activities in whole flies, in different parts of the fly's body and in different sexes, (2) the changes in levels and activities of the enzymes elicited by pretreatment of the flies with known enzyme inducers and (3) differences between strains.Four commonly used wild-type (WT) strains, three insecticide resistant strains (IR) and one white-eyed mutant strain were employed. Except in those experiments on sex differences and in spatial distribution in the fly's body of the enzymatic activities, microsomes were isolated from whole-body homogenates of mixtures of female and male flies. Microsomal cytochrome P-450, benzo[a]pyrene (BP) hydroxylation, p-nitroanisole (pNA) demethylation and aminopyrine (AP) demethylation were measured in control flies and in flies pretreated with Aroclor 1254 (AC), phenobarbital (PB) or butylated hydroxytoluene (BHT).In flies of the WT strain Berlin-K, there were no significant differences in BP hydroxylation activity and its inducibility between the two sexes. In males, inducibility of BP hydroxylation activity was similar in the head, thorax and abdomen, but significantly lower in testis. Considerable differences in some enzyme activities were found between the strains. pNA demethylation and AP demethylation were substantially higher in all IR strains, while no correlation could be found between their increased insecticide resistance and BP hydroxylating capacity or cytochrome P-450 content of the microsomes.Response to enzyme inducing compounds was found to be strain-dependent. PB proved to be a more efficient inducer of BP hydroxylation than AC, which does induce pNA demethylation. BHT has inducing properties that are intermediate between PB and AC. IR strain Hikone-R turned out to be an exception, possessing very low BP hydroxylating capacity and a low degree of inducibility of mixed-function oxidase activities. Differential temperature dependence was found for BP hydroxylation as compared with pNA demethylation. While BP hydroxylation was doubled when raising the temperature from 25°C to 35°C, pNA demethylation was reduced by 50%.