Human,rat and crocodile liver microsomal monooxygenase activities measured using diazepam and nifedipine: effects of CYP3A inhibitors and relationship to immunochemically detected CYP3A apoprotein

Nifedipine oxidase and diazepam C₃-hydroxylase were tested as activities for selectively measuring CYP3A enzymes using liver microsomes from male and female human organ donors, male and female Wistar rats and male and female estuarine crocodiles. The association between CYP3A enzymes and these monooxygenations was confirmed for the human samples. Male rat samples had lower specific contents of CYP3A apoprotein than the human samples but had equivalent (nifedipine) or higher (diazepam) monooxygenase specific activities. CYP3A apoprotein was undetectable in female rat samples which had very low activities towards both substrates. Enzyme inhibition studies showed that diazepam C₃-hydroxylase of male rat liver was attributable to CYP3A but corresponding results for female rats suggested a contribution from non-CYP3A enzyme. Western blotting with immunochemical detection using anti-CYP3A4 IgG suggested the presence of putative CYP3A apoprotein in male and female crocodile liver samples and inhibition studies with diazepam as substrate suggested the presence of CYP3A subfamily monooxygenase activity in these enzyme preparations. Results for nifedipine oxidase with male and female rat liver and male crocodile liver suggested major contributions to catalysis from non-CYP3A enzymes. Inhibition studies suggested that a higher proportion of nifedipine oxidase in female crocodile liver may be attributable to the putative CYP3A enzyme(s) than in male crocodile liver. These results show the need for care in the assessment of CYP3A activity of fractionated tissues when using these substrates in cross-species studies and where gender is a variable.     

Age-associated changes and sex differences in urinary 6-sulphatoxymelatonin circadian rhythm in the rat.

The circadian rhythm of 6-sulphatoxymelatonin (aMT6s) excretion has been determined in male and female rats at 3 weeks and at 2, 8, 14 and 20 months of age. All animals have a pronounced circadian pattern of aMT6s excretion under a 12 hour dark: 12 hour light cycle. A significant increase in aMT6s excretion is observed from 3 weeks to 14 months followed by a decrease at 20 months. There is a highly significant correlation between aMT6s excretion and body weight (r = 0.73 for female rats and r = 0.74 for male rats; p values are all less than 0.001). Thus, a decrease in aMT6s excretion associated with increasing age occurs when body weight is taken into consideration. aMT6s excretion is higher in males at 3 weeks and at 2 and 8 months of ages. Urinary testosterone in male rats and estradiol in female rats increase from 3 weeks to 8 months and decrease at older ages. These data suggest that increase of body weight from 3 weeks to 14 months is an important factor responsible for the age-related alteration. The sex differences in aMT6s excretion in younger rats may be associated with their sex hormonal milieu.     

The effect of gonadectomy and aromatase inhibition on the excretion of 19-nordeoxycorticosterone in rats

19-Nordeoxycorticosterone (19-norDOC) is a powerful mineralocorticoid, which has been postulated to be involved in the pathogenesis of some forms of hypertension. The urinary excretion of 19-norDOC by female rats is up to 20 times that of males. To demonstrate the influence of the gonads on the excretion of 19-norDOC, we measured the excretion of 19-norDOC in intact and gonadectomized male and female rats with and without replacement with testosterone (40 mg testosterone enanthate s.c.) or estrogen (4 mg estradiol valerate s.c.) and in intact animals receiving the aromatase inhibitor, 10-propargyl androstenedione (10-pA) (10 mg s.c.). Orchiectomy produced a significant increase in the urinary excretion of 19-norDOC in males. Testosterone treatment decreased 19-norDOC excretion by castrated males to below intact values, while estrogen administration increased its excretion. Oophorectomy had no consistent effect on 19-norDOC excretion. In oophorectomized females, testosterone administration significantly suppressed 19-norDOC excretion and estrogen replacement increased excretion slightly. 10-pA had little effect on the excretion of 19-norDOC in intact rats of either sex. In conclusion, it appears that 19-norDOC production is inhibited by testosterone, but is affected only slightly by estrogens.     

Gender difference in the Oatp1-mediated tubular reabsorption of estradiol 17beta-D-glucuronide in rats

The gender difference in the urinary excretion of estradiol-17beta-glucuronide (E(2)-17betaG) was examined in rats. The urinary clearance of E(2)-17betaG was >250 times lower in male than in female rats. No such major gender difference was observed in its biliary excretion or metabolism in kidney homogenate. Both plasma protein binding and inulin clearance were comparable in male and female rats, suggesting that this gender difference cannot be explained by glomerular filtration. The urinary clearance with respect to the plasma unbound E(2)-17betaG in male rats was <1% of the glomerular filtration rate, indicating its potential reabsorption by the kidney, and this increased to a level comparable with that found in female rats when dibromosulfophthalein was coinfused. A marked increase in E(2)-17betaG urinary excretion was also observed in male rats that had undergone orchidectomy. Testosterone injections given to female rats reduced the urinary excretion to a level comparable with that of control male rats. The concomitant change in the expression of the gene product for organic anion-transporting polypeptide Oatp1, of which E(2)-17betaG is a typical substrate, was found in the kidney membrane fractions after these treatments. These results suggest that urinary E(2)-17betaG excretion is subject to hormonal regulation and that the large gender difference can be explained by regulation in Oatp1-mediated reabsorption.     

Early liver alterations induced by the sex-dependent hepatocarcinogen beta-blocker ZAMI 1305

Liver alterations occurring after 1, 6 or 10 days of treatment with the hepatocarcinogen beta-blocker DL-1-(2-nitro-3-methyl-phenoxy)-3-tert-butyl-amino-propan-2-ol (ZAMI 1305) were studied in male and female Wistar rats. In agreement with its sex-dependent oncogenicity, ZAMI 1305 administration causes DNA damage in the liver of the female but not of the male rat, with the only exception of 2 out of 4 males treated for 6 days. In female rat, the amount of DNA damage increases from 1 to 6 days of treatment, being unchanged at 10 days; a small portion of DNA is however damaged. ZAMI 1305 administration to female rat induces also: (i) an increase of the relative liver weight, of the DNA and RNA synthesizing activity; (ii) a decrease of the number of hepatocytes in mitosis; (iii) a minimal oval cell hyperplasia. When the same parameters were studied in ZAMI 1305-treated male rats, they were unaffected or changed to a less extent in respect to female rats.     

Effect of Time of Separation from Mother on Behavior in Open Field and on State of the Sympathoadrenal System in Rats Reared under Conditions of Social Isolation

The level of catecholamine excretion with urine and behavior in the open field test were studied in male Wistar rat pups separated from female at the age of 17, 21, 30, and 36 days and reared subsequently for 40 days under conditions either of social isolation or in the group with their kin. It was shown that in rats weaned at the age of 17 and 21 days, the subsequent rearing in isolation led to an increase of the urinary excretion of adrenaline and a decrease, of noradrenaline. After isolation at the 30th day, there was revealed an increase of the excretion level both of adrenaline and of noradrenaline. The social isolation also leads to an increase of horizontal motor activity in rats weaned at the age of 17 days and to a decrease of this activity in rats weaned at the 30-day age. After isolation at the age of 21 days, an earlier extinguishing of the activity it was observed at repeated testing. Isolation at the age of 36 days, on the contrary, led to a decrease of the extinguishing process. Thus, it is shown that the social isolation produces changes in rat behavior and has a stress effect on the animals; the effect of isolation depends on duration of the rearing of rats in the nest with the female.     

Sex-related differences in cadmium-induced lipid peroxidation in the rat

Male and female rats were dosed once a day for 2 days injection with 1.5 mg of Cd/kg as CdCl₂. 24 hr after administration of cadmium, lipid peroxidation determined by estimation of malondialdehyde (MDA) was greatly increased in male rat liver, but was not in female rats. Cadmium in a larger dose of 4.5 mg/kg, subcutaneous single injection, significantly increased content of MDA in female rat liver. These results suggest that sex-related differences exist in the ability of cadmium to induce MDA formation in rat liver, although administration of cadmium causes the enhancement of MDA formation in both male and female rats. The reason why sex-related differences exist in lipid peroxidation of rat liver is discussed.     

Inhibition of polyamine oxidase in rats improves the sensitivity of urinary polyamines as markers for cell death.

In this study we investigated polyamine metabolism during inhibition of two polyamine-catabolizing enzymes. This was performed by treating rats with aminoguanidine [an inhibitor of Cu-dependent amine oxidase (CuAO)], NN'-bis(buta-2,3-dienyl)butane-1,4-diamine [MDL 72527, an inhibitor of FAD-dependent polyamine oxidase (PAO)], tetrachloromethane (hepatotoxic agent) and combinations of these compounds. Emphasis was laid on the origin and possible clinical usefulness of two polyamine metabolites: acetylisoputreanine-gamma-lactam and N1N12-diacetylspermine. Acetylisoputreanine-gamma-lactam is a normal constituent of human and rat urine. Treatment of rats with aminoguanidine led to undetectable urinary levels of acetylisoputreanine-gamma-lactam, whereas MDL 72527 treatment resulted in a 12-fold increase. Under normal conditions this compound represents a minor CuAO catabolite of N1-acetylspermidine, but may become of more importance under CuAO-induced conditions. N1N12-diacetylspermine was undetectable in urine samples from non-pregnant adults and rats, but became detectable after treating rats with MDL 72527. Additional tetrachloromethane poisoning resulted in a 35-fold increase of N1N12-diacetylspermine in urine and its appearance in liver. Hence urinary excretion of N1N12-diacetylspermine during PAO inhibition may serve as a sensitive marker for cell death. This was confirmed by myeloid-leukaemia-bearing rats treated with MDL 72527, which also excreted N1N12-diacetylspermine in urine in relatively high amounts from at least day 14 until spontaneous death.     

Gender modulates activation of renin-angiotensin and endothelin systems in hypertension and heart failure.

Sexual dimorphism may occur during the development of hypertension and congestive heart failure (CHF). Male and female spontaneous hypertension heart failure (SHHF) rats with established hypertension, but before CHF (age 5-8 mo) and during cardiac decompensation leading to CHF (age 18-20 mo in male rats and 22-24 mo in female rats), were studied. At 5-8 mo, male SHHF rats showed early activation of the renin-angiotensin system (RAS), as indicated by increased plasma renin activity (PRA) and higher serum angiotensin-converting enzyme activity compared with female rats. The increase in PRA in female rats was delayed compared with males rats, but it reached comparable levels just before CHF. Urinary endothelin excretion was significantly greater in 5- to 8-mo-old female rats compared with age-matched male rats. Urinary endothelin excretion increased in both male and female rats as CHF developed. Plasma atrial natriuretic peptide (ANP) was comparable at both time points, and both genders showed similar, marked increases as CHF developed. In conclusion, male rats show early activation of the RAS, whereas female rats show early activation of the endothelin vasopressor system. During cardiac decompensation, generalized activation of the RAS, endothelin, and ANP systems occurs and is similar in male and female SHHF rats.     

Differences between the sexes and the effects of surgery and anesthesia on the urinary excretion rate of eicosinoids in the rat

Measurements were made of PGE2, PGF2 and TXB2 in the urine of male and female Munich-Wistar rats. Initial urine were collected in the awake state in metabolic cages and were followed by collections of ureteral urine during surgery and anesthesia both before and during cyclooxygenase inhibition with indomethacin. The excretion rate of all eicosinoids in the awake state was similar between the sexes. PGE2 excretion remained unaffected after anesthesia/surgery in both sexes indicating that providing plasma volume is maintained, the PGE2 system is not activated by the stress of anesthesia/surgery. Near complete inhibition of PGE2 was observed during indomethacin administration in both sexes. TXB2 excretion rates rose in both males and females with anesthesia/surgery and were slightly suppressed during indomethacin in males only. PGF2 excretion rose following surgery/anesthesia and was statistically significant in female rats. During indomethacin, TXB2 excretion was moderately reduced in male rats and unaffected in the female. Near complete inhibition of PGF2 was observed during indomethacin in both sexes. The urinary eicosinoid responses to indomethacin seen in these studies failed to provide an explanation for our earlier observations of a fall in renal vascular resistance in the female rat, studied under anesthesia and during indomethacin administration.     

The measurement of leukotrienes in urine as diagnostic option in systemic mastocytosis

Clinical symptoms of patients with mastocytosis may include skin reactions, but also gastrointestinal symptoms with hyperacidity and dysmotility (e.g. ulcer, diarrhea, pain). They are mostly caused by mediators derived from activated mast cells. In order to investigate the impact of leukotrienes on the clinical symptoms excretion of leukotriene B4 (LTB4) and leukotrienes C4-D4-E4 (cysteinyl-leukotrienes) into urine was studied in 9 patients with indolent systemic mastocytosis divided into a group with high and low intensity of symptoms and in 11 healthy volunteers. Leukotriene excretion was determined by ELISA and correlated with methylhistamine excretion. Patients with systemic mastocytosis with high and low intense symptoms showed significantly higher urinary excretion of cysteinyl-leukotrienes than controls. There was a positive correlation of cysteinyl-leukotriene excretion and urinary methylhistamine excretion. LTB4 excretion was also significantly increased in patients with systemic mastocytosis compared to healthy volunteers. No correlation of urinary LTB4 excretion with urinary methylhistamine was observed. The present study demonstrates that urinary excretion of LTB4 and cysteinyl-leukotrienes LTC4-D4-E4 is clearly enhanced in indolent systemic mastocytosis Hence, determination of leukotriene excretion into urine can be used as a tool in the diagnostic and in the therapeutic monitoring of systemic mastocytosis.     

Inhibition of histone deacetylase causes emphysema

In patients with chronic obstructive pulmonary disease (COPD), histone deacetylase (HDAC) expression and activity are reduced in the lung tissue. However, whether HDAC activity controls the maintenance of the lung alveolar septal structures has not been investigated. To explore the consequences of HDAC inhibition and address the question of whether HDAC inhibition causes lung cell apoptosis and emphysema, male Sprague-Dawley rats and human pulmonary microvascular endothelial cells (HPMVEC) were treated with trichostatin A (TSA), a specific inhibitor of HDACs. Chronic TSA treatment increased the alveolar air space area, mean linear intercept, and the number of caspase-3-positive cells in rat lungs. TSA suppressed hypoxia-inducible factor-1α (HIF-1α), VEGF, and lysyl oxidase (LOX) and increased microtubule-associated protein-1 light chain 3 (LC3), p53, and miR34a microRNA expression in both rat lungs and cultured HPMVEC. Gene silencing of HDAC2 using small interfering RNA (siRNA) in cultured HPMVEC resulted in the suppression of HIF-1α, VEGF, and LOX and an increase of p53 expression. These data indicate that HDAC inhibition causes emphysema and that HDAC-dependent mechanisms contribute to the maintenance of the adult lung structure. Our results also suggest that the increase in apoptosis, as a consequence of HDAC inhibition, is associated with decreased VEGF and HIF-1α expression.     

Gender differences in myosin heavy chain-beta and phosphorylated phospholamban in diabetic rat hearts

The objective of this study was to determine whether a gender difference exists in myosin heavy chain (MHC) isoform or sarcoplasmic reticulum protein levels in diabetic rat hearts. As is the case with normal rodent hearts, all four chambers of the control rat hearts expressed almost 100% MHC-alpha. In 6-wk diabetic rats, MHC-beta expression in ventricles of males was significantly greater (78 +/- 7%) than in females (50 +/- 5%). The cardiac sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA2a) protein level was decreased and the phospholamban (PLB) protein level was increased in the left ventricle of diabetic rats, but there was no difference between male and female diabetic rats. The phosphorylated PLB level was decreased more in male than in female diabetic rats. Insulin treatment completely normalized blood glucose level, cardiac SERCA2a and PLB protein levels, and the decrease in MHC-beta levels in both male and female diabetic rats. Insulin treatment completely normalized serum insulin and almost completely normalized phosphorylation of PLB at serine 16 in male diabetic rats. Although insulin treatment completely normalized serum insulin levels in male diabetic rats, in females it only partially normalized serum insulin levels. Also, insulin treatment almost completely normalized phosphorylation of PLB at threonine 17 in female diabetic rats; however, the increase was significantly greater than that identified for insulin-treated male diabetic rats. We conclude that higher levels of MHC-beta and dephosphorylated PLB may contribute to more contractile dysfunction in male than in female diabetic rat hearts, and that phosphorylation of PLB at threonine 17 is more responsive to insulin in female diabetic rat hearts.     

Sex-related differences in the hepatobiliary transport of phenolsulfonphthalein in the rat

Sex-related differences in the hepatobiliary transport of phenolsulfonphthalein (PSP) were investigated in male and female Wistar rats. Maximal biliary excretion of unconjugated PSP was significantly higher in females while the excretion of the conjugated dye and liver UDP-glucuronosyltransferase activity toward PSP were higher in male animals. Orchidectomy decreased enzyme activity and excretion of the conjugate, whereas ovariectomy produced the opposite effect. Both in gonadectomized males and females maximal biliary excretion of the unconjugated dye was significantly reduced. Testosterone treatment increased the excretion of both conjugated and unconjugated PSP and transferase activity in orchidectomized males. Combined treatment of gonadectomized females with estradiol plus progesterone led to excretions of both conjugated and unconjugated PSP and UDP-glucoronosyltransferase activities similar to those found in control rats. These data indicate the existence of sex-related differences in the conjugation and biliary excretion of PSP in the rat and its modulation by sex hormones.     

Resveratrol reduces vascular cell senescence through attenuation of oxidative stress by SIRT1/NADPH oxidase-dependent mechanisms

ObjectiveSenescence of vascular cells contributes to the development of cardiovascular diseases and the overall aging. This study was undertaken to investigate the effects of resveratrol (Res) on amelioration of vascular cell aging and the role of SIRT1/nicotinamide adenine dinucleotide phosphate (NADPH) oxidase pathway.Methods and ResultsAdult male Wistar rats were treated with a high-fat/sucrose diet (HFS) in the presence or absence of Res for 3 months. HFS and in vitro treatment with high glucose increased the senescence cells and reactive oxygen species production in rat aorta and cultured bovine aortic endothelial cells (BAECs), respectively, which was attenuated by Res treatment. Res protected against HFS- or high-glucose-induced increase in NADPH oxidase p47phox expression and decrease in SIRT1 level. Apocynin, a NADPH oxidase inhibitor, down-regulated p47phox protein expression, but had no influence on SIRT1 protein; sirtinol, a SIRT1 inhibitor, aggravated the decrease in SIRT1 protein level and the increase in p47phox protein expression induced by high glucose.ConclusionOur studies suggested that Res was able to reverse the senescence process in aorta induced by HFS in rats or induced by the exposure to high glucose in cultured BAECs. The underlying mechanism is at least SIRT1/NADPH oxidase pathway dependent.     

Sexual hormones terminate in the rat: the significantly enhanced catecholaminergic/serotoninergic tone in the brain characteristic to the post-weaning period

The amount of dopamine released from the striatum, substantia nigra and tuberculum olfactorium, noradrenaline from locus coeruleus and serotonin from the raphe, was significantly higher in four and five weeks old rats than in three month old ones, proving that the catecholaminergic/serotoninergic activity enhancer (CAE/SAE) regulation works unrestrained during developmental longevity and is restricted thereafter. As the dampening of the CAE/SAE regulation (end to the second month of age) coincided temporally with the appearance of sexual hormones, we castrated three weeks old male and female rats and measured at the end of the third month of their life the release of catecholamines and serotonin from selected discrete brain regions. The amount of catecholamines and serotonin released from the neurons was significantly higher in castrated than in untreated or sham operated rats, signalting that sexual hormones inhibit the CAE/SAE regulation in the brain. We therefore treated male and female rats s.c. with oil (0.1 ml/rat), testosterone, (0.1 mg/rat), estrone (0.01 mg/rat) and progesterone (0.5 mg/rat), respectively, and measured their effect on the CAE/SAE regulation. Twenty-four hours after a single injection with the hormones, the release of noradrenaline, dopamine and serotonin was significantly inhibited in the testosterone or estrone treated rats, but remained unchanged after progesteron treatment. In rats treated with a single hormone injection, testosterone in the male and estrone in the female was the significantly more effective inhibitor. Remarkably, the reverse order of potency was found in rats treated with daily hormone injections for 7 or 14 days. After two-week treatment with the hormones estrone was in the male and testosterone in the female the significantly more potent inhibitor of the CAE/SAE regulation. The data indicate that sexual hormones terminate the hyperactive phase of adolescence by dampening the impulse propagation mediated release of catecholamines and serotonin in the brain.     

Differences between the sexes and the effects of surgery and anesthesia on the urinary excretion rate of eicosinoids in the rat

Measurements were made of PGE₂, PGF₂ and TXB₂ in the urine of male and female Munich-Wistar rats. Initial urine were collected in the awake state in metabolic cages and were followed by collections of ureteral urine during surgery and anesthesia both before and during cyclooxygenase inhibition with indomethacin. The excretion rate of all eicosinoids in the awake state was similar between the sexes. PGE₂ excretion remained unaffected after anesthesia/surgery in both sexes indicating that providing plasma volume is maintained, the PGE₂ system is not activated by the stress of anesthesia/surgery. Near complete inhibition of PGE₂ was observed during indomethacin administration in both sexes. TXB₂ excretion rates rose in both males and females with anesthesia/surgery and were slightly suppressed during indomethacin in males only. PGF₂ excretion rose following surgery/anesthesia and was statistically significant in female rats. During indomethacin, TXB₂ excretion was moderately reduced in male rats and unaffected in the female. Near complete inhibition of PGF₂ was observed during indomethacin in both sexes. The urinary eicosinoid responses to indomethacin seen in these studies failed to provide an explanation for our earlier observations of a fall in renal vascular resistance in the female rat, studied under anesthesia and during indomethacin administration.     

Testosterone represses urinary excretion of the alpha-tocopherol metabolite alpha-carboxymethylhydroxychroman in rats

In rats, plasma and tissue concentrations of α-tocopherol, a predominant form of vitamin E in mammals, are known to differ between the sexes. In order to examine sex differences in α-tocopherol metabolism, we investigated urinary excretion of the α-tocopherol metabolite α-carboxymethylhydroxychroman (α-CEHC) using Wistar rats. First, we measured α-CEHC in urine of 9-week-old male and female rats in basal and α-tocopherol-administered conditions. We observed that female rats excrete significantly more α-CEHC than male rats via urine. This sex difference was observed in matured 9-week-old rats but not in premature 3-week-old rats, suggesting that the difference may relate to sex hormones. In order to confirm this, we examined the effect of ovariectomy and orchiectomy on female and male rats, respectively. The results of castration clearly demonstrated that orchiectomy enhanced urinary excretion of α-CEHC, supporting the hypothesis that testosterone repressed α-tocopherol metabolism. We then administered testosterone propionate to orchiectomized rats and observed down-regulation of α-CEHC excretion. Taken together, these results indicate that testosterone represses the metabolism and urinary excretion of α-tocopherol in rats. This is the first report to show a sex-dependent difference in urinary excretion rate of an α-tocopherol metabolite and contributes to the understanding of vitamin E metabolism.     

Gender-related differences in expression and function of hepatic P-glycoprotein and multidrug resistance-associated protein (Mrp2) in rats

To clarify whether gender-related differences exist in the expression and function of hepatic P-glycoprotein- and/or multidrug resistance-associated protein (Mrp2), we measured the hepatobiliary excretion of doxorubicin and their protein levels in male and female Sprague-Dawley rats. When rats received a single intravenous injection of doxorubicin (5 mg/kg), a delay in the disappearance of doxorubicin from plasma was observed in male rats. When rats received a constant-rate infusion of doxorubicin, no significant gender-related differences in the apparent biliary clearance of doxorubicin based on the steady state plasma concentrations were observed between male and female rats. However, the net biliary clearance of doxorubicin based on the liver concentration, which represents the actual function of P-glycoprotein and/or Mrp2, was higher in female rats than in male rats. These results suggest that the actual function of the hepatobiliary transport of doxorubicin is greater in female than in male rats. Western blot analysis revealed that the expression of P-glycoprotein and Mrp2 in the liver of female rats was significantly higher than in male rats, similar to results of hepatobiliary excretion experiments. The expression of hepatic cytochrome P450 (CYP) 2B1, which is involved in the metabolism of doxorubicin, was significantly higher in male than in female rats. By pretreatment with testosterone (10 mg/day for 7 days), the actual biliary clearance of doxorubicin in female rats was nearly that of male rats. The protein levels of P-glycoprotein and Mrp2 in female rats were also lowered by treatment with testosterone so as to be nearer those in male rats. These results suggest that gender-related differences exist in P-glycoprotein- and Mrp2-mediated hepatobiliary transport and that these two transporters may be regulated by sex hormones.