The hypothalamic–hypophyseal–gonadal regulation of hepatic glutathione S-transferases in the rat

Hepatic glutathione S-transferase activities were determined with the substrates 1,2-dichloro-4-nitrobenzene and 1-chloro-2,4-dinitrobenzene. Sexual differentiation of glutathione S-transferase activities is not evident during the prepubertal period, but glutathione conjugation with 1,2-dichloro-4-nitrobenzene is 2–3-fold greater in adult males than in females. Glutathione conjugation with 1-chloro-2,4-dinitrobenzene is slightly higher in adult males than adult females. No change in activity was observed after postpubertal gonadectomy of males or females. Neonatal castration of males results in a significant decrease in glutathione conjugation with 1,2-dichloro-4-nitrobenzene. Hypophysectomy, or hypophysectomy followed by gonadectomy did result in significantly higher glutathione S-transferase activities in both sexes. These increases can be reversed by implanting an adult male or female pituitary or four prepubertal pituitaries under the kidney capsule. Postpubertal sexual differentiation of glutathione S-transferase activities is neither dependent on pituitary sexual differentiation nor pituitary maturation. Prolactin concentrations are inversely related to glutathione S-transferase activities in hypophysectomized rats with or without ectopic pituitaries. Somatotropin exogenously administered to hypophysectomized rats results in decreased glutathione S-transferase activities, whereas prolactin has no effect. Adult male rats treated neonatally with monosodium l-glutamate to induce arcuate nucleus lesions of the hypothalamus have decreased glutathione S-transferase activities towards 1,2-dichloro-4-nitrobenzene and decreased somatotropin concentrations. Our experiments suggests that sexual differentiation of hepatic glutathione S-transferase is a result of a hypothalamic inhibiting factor in the male (absent in the female). This postpubertally expressed inhibiting factor acts on the pituitary to prevent secretion of a pituitary inhibiting factor (autonomously secreted by the female), resulting in higher glutathione S-transferase activities in the adult male than the adult female.     

Hormonal regulation of rat liver microsomal enzymes. Role of gonadal steroids in programming, maintenance, and suppression of delta 4-steroid 5 alpha-reductase, flavin-containing monooxygenase, and sex-specific cytochromes P-450

Neonatal gonadectomy studies and hormonal replacement regimens were employed to characterize the regulation of delta 4-steroid 5 alpha-reductase, microsomal flavin-containing monooxygenase, and several forms of rat hepatic microsomal cytochrome P-450, including three that are sexually differentiated. Rats of both sexes that had been gonadectomized at birth were either untreated or were administered testosterone propionate or estradiol benzoate neonatally (subcutaneous injection on days 1 and 3 of life), postpubertally (an implant of a hormone-packed capsule at 5 weeks of age), or both neonatally and postpubertally. At the age of 10 weeks, all rats were killed, and several liver microsomal enzymes were assayed using immunochemical and catalytic techniques. Expression in the 10-week-old male and female rats of two male-specific cytochrome P-450 forms, termed P-4502c/UT-A and P-4502a/PCN-E, and their associated respective 16 alpha- and 6 beta-steroid hydroxylase activities could either be imprinted (programmed) by androgen exposure during the early neonatal period or, alternatively, could be stimulated by continuous hormone treatment after the age of 5 weeks. By contrast, hepatic expression of two female-specific enzymes, P-4502d/UT-1 and delta 4-steroid 5 alpha-reductase, was only partially dependent on estradiol; birth-gonadectomized rats expressed as much as 30-50% of the enzyme levels present in untreated adult females. Expression of both female-specific enzymes was fully suppressed upon postpubertal exposure to testosterone. In another study, birth sham-operated female rats were administered testosterone using the same regimens described above for the birth-gonadectomized rats. Although neonatal testosterone treatment alone did not affect the expression in these females of the four sex-specific enzymes examined in this study, it did enhance significantly the masculinization effected by postpubertal androgen exposure. This resulted in expression of the male-specific enzymes P-4502c/UT-A and P-4502a/PCN-E in these females at levels comparable to those found in adult males, while simultaneously suppressing the two female-specific enzymes, P-4502d/UT-I and delta 4-steroid 5 alpha-reductase, by approximately 70-75% to levels characteristic of prepubertal rats of either sex. The levels of another microsomal enzyme, flavin-containing monooxygenase, were also measured and found to be regulated by testosterone, but the ontogenic profiles and the effects of gonadectomy and hormone replacement indicated clear differences in its regulation when compared to the other male-specific enzymes.(ABSTRACT TRUNCATED AT 400 WORDS)     

The role of the gonads and the hypophysis in the regulation of hydroxysteroid dehydrogenase activities in rat kidney.

With the exception of 3beta-hydroxy-steroid dehydrogenase all the hydroxysteroid dehydrogenases of adult male and female rat kidney show significant sex differences in their activities. Interference with the organisms endocrine balance (gonadectomy on day 25 of life, hypophysectomy on day 50, a combination of both these operations, administration of testosterone or oestradiol) demonstrates that the sexually differentiated enzyme activities may be classified as androgen or oestrogen dependent, the respective sex hormone acting either in an inductive or repressive manner. The criteria for androgen dependency (microsomal 3alpha- and 20beta-, cytoplasmic 17beta- and 20alpha- hydroxysteroid dehydrogenase) are the feminization of the enzyme activity in male animals after castration and the masculinization of the activity in male and female castrates as well as in normal female animals after administration of testosterone. This latter effect on normal females cannot be a testosterone mediated inhibition of ovarian function since ovariectomy has no effect. For 3alpha-, 20alpha-, and 20beta-hydroxysteroid dehydrogenase the effects of hypophysectomy parallel those of gonadectomy. However, after hypophysectomy the activity of 17beta-hydroxysteroid dehydrogenase falls significantly below the gonadectomized level. The androgen effect on 3alpha and 20beta-hydroxysteroid dehydrogenase is independent of the hypophysis, whereas that of 17beta- and 20alpha-hydroxysteroid dehydrogenase is mediated by the hypophysis.     

Steroid glucuronyltransferases of rat liver. Properties of oestrone and testosterone glucuronyltransferases and the effect of ovariectomy, castration and administration of steroids on the enzymes.

1. Microsomal preparations from rat liver, kidney and intestine were tested for UDP-glucuronyltransferase activity by using oestrone, oestradiol-17 beta, oestriol, testosterone, cortisol, cortisone, corticosterone, aldosterone, tetrahydrocortisol and tetrahydrocortisone as substrates. The microsomal preparation from the liver glucuronidated oestrone, oestradiol-17 beta and testosterone. 2. The specific activity of the enzyme was significantly higher in livers from female rats than in those from male rats. 3. Testosterone was actively glucuronidated by both sexes. Cortisol, cortisone, corticosterone, aldosterone, tetrahydrocortisol and tetrahydrocortisone were not glucuronidated by any of the three tissues. 4. The non-ionic detergent Lubrol WX activates liver microsomal UDP-glucuronyltransferase 2-3-fold with oestrone and testosterone as substrates. 5. Oestrone glucuronyltransferase was inhibited by oestradiol-17 beta, predominantly competitively and by testosterone non-competitively. Bilirubin was a non-competitive inhibitor of oestrone glucuronidation. p-Nitrophenol had no effect. 6. Oestrone glucuronyltransferase could not be stimulated by either acute or prolonged treatment of animals with phenobarbital, whereas a single dose of 3-methylcholanthrene led to a moderate stimulation. 7. Ovariectomy leads to a 56% decrease in oestrone glucuronyltransferase activity; administration of oestradiol-17 beta induces the enzyme to normal activity after 12 days, and after 15 days the activity is twice the control value. Actinomycin D and cycloheximide block the oestradiol-17 beta-induced increase in enzyme activity. 8. Castration has no effect on the activity of testosterone glucuronyltransferase, nor does administration of testosterone influence enzyme activity. The results provide strong evidence for the existence of multiple steroid glucuronyltransferases in the liver of the rat.     

Regulation of the pituitary 5 alpha-reductase activity by gonadotropin releasing hormone and testosterone in the adult male rat

Intact or castrated adult male rats were treated for nine days with GnRH (10 micrograms/day), the synthetic GnRH goserelin (100 micrograms/day) or the GnRH-antagonist Org 30276 (250 or 500 micrograms/day). In some series, 1 mg testosterone propionate was administered alone, or in combination with goserelin or Org 30276. The in vitro metabolism of [1 alpha,2 alpha-3H]testosterone by pituitary and hypothalamic homogenates was investigated in combination with the estimation of plasma concentrations of testosterone and gonadotropins. No qualitative or quantitative differences were observed in hypothalamic testosterone metabolism or in the pituitary 17 beta-hydroxysteroid dehydrogenase activity. Testosterone administration to intact male rats decreased the pituitary 5 alpha-reductase activity and LH, while administered to castrated rats, it was able to suppress totally the castration-induced increase of the 5 alpha-reductase activity and of the gonadotropin secretion. The drastic decrease of the plasma levels of testosterone, observed after a prolonged treatment with GnRH, goserelin or Org 30276 was not accompanied by an increased pituitary 5 alpha-reductase activity. Injected to castrated rats, it was observed that the castration-induced increase of the pituitary 5 alpha-reductase was further stimulated by GnRH, totally suppressed by goserelin and partially suppressed by Org 30276. Concomitant administration of goserelin or Org 30276 and testosterone propionate to castrated rats resulted in a further decrease of the pituitary 5 alpha-reductase activity, compared to the castrated, GnRH-analogue treated rats. These data indicate that the pituitary 5 alpha-reductase enzyme system is controlled by both direct steroidal and indirect GnRH-mediated mechanisms.     

Hormonal regulation of male-specific 20beta-hydroxysteroid dehydrogenase with carbonyl reductase-like activity present in kidney microsomes of rats.

Progesterone, 17alpha-hydroxyprogesterone, cortisone and cortisol, which are C(21)-steroids with a ketone group at the 20-position, potently inhibited the activity of enzyme acetohexamide reductase (AHR) responsible for the reductive metabolism of acetohexamide in kidney microsomes of male rats. Furthermore, progesterone was a competitive inhibitor of AHR. In the case of progesterone usage as the substrate, 20beta-hydroxysteroid dehydrogenase (20beta-HSD) activity was much higher than 20alpha-hydroxysteroid dehydrogenase (20alpha-HSD) activity in kidney microsomes of male rats. These results indicate that AHR present in kidney microsomes of male rats, functions as 20beta-HSD with carbonyl reductase-like activity. In male rats, both testectomy and hypophysectomy decreased the renal microsomal 20beta-HSD activity, but the decreased enzyme activities were increased by the treatment with testosterone propionate (TP). We propose the possibility that TP treatment regulates the renal microsomal 20beta-HSD activity by acting directly on the kidney of male rats. This is supported from the fact that when TP was given to ovariectomized and hypophysectomized female rats, the male-specific 20beta-HSD activity was detected in their kidney microsomes.     

Hypophyseal regulation of hepatic histidase during postnatal development and adulthood: II. Pituitary-estrogen interrelationship

Estrogen, which augments rat liver histidase activity in pre- and postpubertal rats, is ineffective in hypophysectomized animals, in which enzyme activities are already elevated. This failure of estrogen action has been demonstrated in hypophysectomized weanling, as well as adult females, the former of which manifest enzyme activities considerably below maximum possible values. The following agents, which are known to suppress histadase activity under certain conditions, were ineffective in permitting estrogen stimulation of histadase in hypophysectomized rats: glucocorticoid, testosterone, adrenocorticotrophin acting extra-adrenally and via the adrenals, growth, and preparations of whole pituitaries of bovine or female rat origin. The following materials, which do not themselves alter enzymic activity, were likewise incapable of permitting estrogenic enhancement of histadase activity in these animals: follicle-stimulating hormone and luteinizing hormone acting extra-gonadally, thyrotrophic hormone, and bovine posterior pituitary preparations.     

Ontogeny of an 8S androgen binding protein in rat liver cytosol

Studies were performed to elucidate the ontogeny of a single class of androgen binding protein in male rat liver cytosol which exhibits characteristics of a ligand specific, high affinity (Kd = 2.3 nM), 8S-receptor capable of nuclear translocation. Detectable levels of receptor first appear at 45 days of age in the male and reach maximum concentration at 65 days. Barely detectable levels are seen in females throughout the duration of study (80 days). Gonadectomy in both sexes (65 days) and androgen treatment of oophorectomized females do not alter the normal development of sexual differentiation of the high affinity androgen receptor. After neonatal castration (2 days) and DES replacement however, receptor sites do not undergo differentiation and adult males exhibit female levels. Conversely, neonatal androgen replacement in 2-day castrates partially restores the level of binding sites to control males values (TP, 71%; DHT, 51%). Neonatal castration without replacement retards but does not fully eliminate sexual differentiation of levels of receptor sites in adult males. Likewise, neonatal androgen treatment in females results in a partial masculinization of binding sites. Following hypophysectomy, levels of receptor sites in females are similar to intact or hypophysectomized males; sexual differences in the adult are abolished. These studies suggest that sexual differentiation of specific liver cytosol androgen binding sites in the adult may be partially programmed at birth by testicular androgen and furthermore, adult sexual dimorphism is maintained through an inhibitory influence of the pituitary in the female.     

成年去胸腺大鼠和老年大鼠肝微粒体混合功能氧化酶及血浆性激素水平的变化

成年去胸腺(ATx)大鼠和老年大鼠肝微粒体混合功能氧化酶(MFO,包括细胞色素P450、氨基比林-N-脱甲基酶)的活力比成年对照大鼠的低,且降低幅度雄性明显大于雌性。雄性ATx大鼠和老年大鼠血浆睾酮(T)水平降低,雌二醇(E_2)水平增高,E_2/T比值明显增高;雌性ATx大鼠和老年大鼠血浆E_2和T水平均降低,E_2/T比值无明显变化。给雄性ATx大鼠皮下注射丙酸睾丸素可使其肝微粒体MFO活力恢复。提示胸腺对肝脏MFO的影响可能是通过性激素介导的。     

Differential effects of testosterone metabolites in the neonatal period on open-field behavior and lordosis in the rat

Two experiments were done to compare the effects of neonatal exposure to testosterone and its major metabolites, dihydrotestosterone (DHT) and estradiol (E₂), on the development of sex differences in open-field behavior in the rat. In Experiment 1 female rats administered either testosterone propionate (TP), DHT, or estradiol benzoate (EB) were found as adults to have low activity scores, more typical of adult males, when compared to the high scores of oil-treated females. In Experiment 2 the adult open-field behavior of female rats treated neonatally with testosterone or the metabolites was compared to that of male rats treated from Day 1 to 10 of life with the aromatizing enzyme inhibitor, androst-1,4,6-triene-3,17-dione (ATD). These same animals were later tested for lordotic behavior after gonadectomy and priming with EB and progesterone. All male animals and female animals exposed neonatally to testosterone or to either of the metabolites had suppressed open-field activity scores compared to oil-treated females. However, the lordotic behavior of females exposed to DHT and of males exposed to ATD was not defeminized and was comparable to that of oil-treated females. These observations were discussed in terms of a role for the androgenic actions of testosterone in establishing sex differences in nonreproductive behavior in the rat.     

Altered activation/detoxication enzymology following neonatal diethylstilbestrol treatment

The effects of neonatal exposure to diethylstilbestrol (DES) on hepatic activation/detoxication enzyme levels in the adult rat were investigated. Neonatal exposure of male rats to DES (DES males) decreased the endogenous levels of UDP-glucuronyltransferase as compared to control males. Female rats exposed neonatally to DES (DES females) had higher endogenous epoxide hydrolase and glutathione transferase activity levels than control females. Adult animals treated neonatally with DES also had altered metabolic potential following exposure to 3-methylcholanthrene and phenobarbital. The DES males treated in adulthood with 3-methylcholanthrene had higher benzo(a)pyrene hydroxylase activities and lower UDP-glucuronyltransferase activity levels than did control males treated in adulthood with 3-methylcholanthrene. The DES males exposed in adulthood to phenobarbital had reduced cytochrome P-450 and glutathione transferase activity levels as compared with respective controls. The DES females treated in adulthood with 3-methylcholanthrene had lower benzo(a)pyrene hydroxylase and epoxide hydrolase activity levels than control females receiving 3-methylcholanthrene. The DES females challenged in adulthood with phenobarbital also had decreased benzo(a)pyrene hydroxylase, epoxide hydrolase, UDP- glucuronyltransferase, and glutathione transferase activity levels as compared with respective controls. Our results demonstrated that neonatal exposure to DES changed the endogenous levels of specific hepatic enzymes and altered the metabolic response of these adult animals to a carcinogen and a drug.     

Administration of gonadal steroids to neonatal rats affects beta-endorphin levels in the adult

Administration of gonadal steroids to neonatal rats has a profound effect on the function of the neuroendocrine system in the adult animal. Considering that gonadal steroids modulate hypothalamic and pituitary levels of beta-endorphin (BE) in adult male and female rats, the effects of neonatal gonadal steroid treatment on BE levels in the adult animal were investigated. Neonatal male rats were administered testosterone and neonatal female rats were treated with estrogen. Matched control littermates received vehicle. All animals were sacrificed at 90 days of age. Neonatal gonadal steroid treatment did not affect the level of immunoreactive beta-endorphin (IR-BE) in the anterior pituitary (AP) of male rats but did result in a significant increase in IR-BE in the AP of female rats. Neonatal administration of gonadal steroids produced a significant decrease in IR-BE in the neurointermediate lobe of the pituitary (NIL) of both male and female rats, with the magnitude of the decrease being greater in the NIL of the female rats. IR-BE levels in the hypothalamus of male or female rats were not altered by the treatments. Column chromatography indicated that the increase in IR-BE in the AP represented a proportional increase in BE and beta-lipotropin, while the reduction in IR-BE in the NIL of the treated rats represented a reduction in BE. These findings suggest that gonadal steroids may influence the development of the neurotransmitter systems which regulate BE levels in the adult pituitary, the development of the biosynthetic mechanisms of the adult pituitary, or both.     

Effects of testosterone and estrogen on hepatic levels of cytochromes P450 2C7 and P450 2C11 in the rat.

The effects of exogenous hormone treatment on the expression of cytochromes P450 2C7 and P450 2C11 were studied in neonatally gonadectomized and sham-operated male and female rats. Hepatic levels of cytochrome P450 2C7 were found to be two- to threefold higher in intact adult female versus male rats. Neonatal gonadectomy resulted in a reversal of the relative cytochrome P450 2C7 levels in male and female animals at maturity. Expression of this isozyme was restored in ovariectomized females by estradiol treatment. Furthermore, neonatal and/or pubertal administration of estradiol to intact male rats induced cytochrome P450 2C7 to adult female levels. On the other hand, administration of testosterone at all times examined had no effect in intact female rats, but decreased cytochrome P450 2C7 to normal levels in neonatally castrated males treated during adulthood. Neonatal testosterone treatment also increased hepatic cytochrome P450 2C7 content in both ovariectomized females and intact males. These results indicate that estrogen is required for full expression of cytochrome P450 2C7 while the effect of testosterone is ambiguous. In comparison, neonatal gonadectomy of male rats abolished the adult expression of cytochrome P450 2C11. Normal levels were restored only by treatment with testosterone during adulthood. Neonatal testosterone treatment did not induce cytochrome P450 2C11 levels in gonadectomized rats of either sex. In contrast, neonatal estrogen treatment suppressed cytochrome P450 2C11 expression in intact adult male rats to the same extent as neonatal castration. These results indicate that androgen exposure during the adult, and not the neonatal, phase is essential for full expression of cytochrome P450 2C11.     

Strain differences in rat liver (UDP-glucuronyltransferase activity towards androsterone.

Male Donryu, Wistar King rats showed discontinuous variations in hepatic microsomal UDP-glucuronyltransferase activities towards androsterone, but not towards testosterone, bilirubin, phenolphthalein and 4-nitrophenol. Fresh microsomal fraction with a low transferase activity towards androsterone formed 0.049--0.080 nmole of glucuronide/min per mg of protein, whereas fresh microsomal fraction with a high transferase activity towards androsterone formed 0.335--0.557 nmol of glucuronide/min per mg of protein. The microsomal fraction with low enzyme activity towards androsterone was not stimulated by treatment with Triton X-100 or freezing and thawing. In contrast, male Long Evans and Sprague-Dawley rats did not exhibit such diversity.     

The effects of neonatal androgenization of male rats on testosterone metabolism by the hypothalamus-pituitary-gonadal axis

Male rats were androgenized on the third postnatal day by a single injection of 1 mg testosterone propionate. The in vitro metabolism of [4-14C]testosterone by pituitary and hypothalamus homogenates was investigated at the age of 90 days. The pituitary and hypothalamus homogenates from control and neonatally androgenized animals converted [4-14C]testosterone to the same metabolites, mainly 5 alpha-reduced derivatives; the quantitative yield of 5 alpha-reduced metabolites was much higher in the pituitary homogenates of androgenized rats. The hypothalamic homogenates showed no differences. In the androgenized rats a very significant increase of the plasma FSH levels was measured while the LH levels were also augmented. The plasma levels of testosterone were not different from the values in control rats, notwithstanding a 25% reduction in testes weight. The present experiments appear to indicate that the neonatal androgenization results in an accentuation of the sexual dimorphism which normally exists in the pituitary of adult rats for the 5 alpha-reductase activity.     

Regulation of testosterone hydroxylation by rat liver microsomal cytochrome P-450

The pathways of testosterone oxidation catalyzed by purified and membrane-bound forms of rat liver microsomal cytochrome P-450 were examined with an HPLC system capable of resolving 14 potential hydroxylated metabolites of testosterone and androstenedione. Seven pathways of testosterone oxidation, namely the 2 alpha-, 2 beta-, 6 beta-, 15 beta-, 16 alpha-, and 18-hydroxylation of testosterone and 17-oxidation to androstenedione, were sexually differentiated in mature rats (male/female = 7-200 fold) but not in immature rats. Developmental changes in two cytochrome P-450 isozymes largely accounted for this sexual differentiation. The selective expression of cytochrome P-450h in mature male rats largely accounted for the male-specific, postpubertal increase in the rate of testosterone 2 alpha-, 16 alpha, and 17-oxidation, whereas the selective repression of cytochrome P-450p in female rats accounted for the female-specific, postpubertal decline in testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylase activity. A variety of cytochrome P-450p inducers, when administered to mature female rats, markedly increased (up to 130-fold) the rate of testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylation. These four pathways of testosterone hydroxylation were catalyzed by partially purified cytochrome P-450p, and were selectively stimulated when liver microsomes from troleandomycin- or erythromycin estolate-induced rats were treated with potassium ferricyanide, which dissociates the complex between cytochrome P-450p and these macrolide antibiotics. Just as the testosterone 2 beta-, 6 beta-, 15 beta-, and 18-hydroxylase activity reflected the levels of cytochrome P-450p in rat liver microsomes, so testosterone 7 alpha-hydroxylase activity reflected the levels of cytochrome P-450a; 16 beta-hydroxylase activity the levels of cytochrome P-450b; and 2 alpha-hydroxylase activity the levels of cytochrome P-450h. It is concluded that the regio- and stereoselective hydroxylation of testosterone provides a functional basis to study simultaneously the regulation of several distinct isozymes of rat liver microsomal cytochrome P-450.     

Adult male-specific and neonatally programmed rat hepatic P-450 forms RLM2 and 2a are not dependent on pulsatile plasma growth hormone for expression

Rat hepatic cytochrome P-450 form RLM2 is a testosterone 15 alpha-hydroxylase reported to be male-specific on the basis of purification studies (Jansson, I., Mole, J., and Schenkman, J. B. (1985) J. Biol. Chem. 260, 7084-7093). The sex dependence, developmental regulation, xenobiotic induction, and hormonal control of P-450 RLM2 expression were studied using P-450 form-specific immunochemical and catalytic assays. Polyclonal antibodies raised to rat hepatic P-450 3 (P-450 gene IIA1) were found to cross-react strongly with P-450 RLM2, but not with 10 other rat P-450 forms, suggesting that P-450 3 and P-450 RLM2 are highly conserved in primary structure. Western blotting of liver microsomes under conditions where P-450s 3 and RLM2 are resolved electrophoretically revealed that P-450 RLM2 is markedly induced at puberty in male rats, with no protein detected (less than or equal to 5% of adult male levels) in adult females or immature animals of either sex. A similar developmental dependence was observed for hepatic microsomal testosterone 15 alpha-hydroxylase activity, which was found to be catalyzed primarily by P-450 RLM2. P-450 RLM2 was resistant to induction by several xenobiotics and in the case of phenobarbital and beta-naphthoflavone, was suppressed by 50-60%. Studies on the steroid hormonal regulation of P-450 RLM2 revealed that its adult male-specific expression is imprinted (programmed) in response to neonatal testosterone exposure. Ovariectomy studies demonstrated that suppression by estrogen does not contribute significantly to the absence of P-450 RLM2 in adult female rats. Although the male-specific developmental induction of P-450 RLM2 in response to neonatal testosterone is strikingly similar to that of P-450 2c (testosterone 2 alpha/16 alpha-hydroxylase; gene IIC11), P-450 RLM2 expression is not dependent on the pulsatile pituitary growth hormone secretion required for P-450 2c synthesis. Rather, hypophysectomy of adult male rats increased P-450 RLM2 and its associated testosterone 15 alpha-hydroxylase activity by 50-100%.(ABSTRACT TRUNCATED AT 400 WORDS)     

Does neonatal gonadectomy affect the sexual differentiation of quail?

This experiment was designed to determine the contribution, if any, of posthatching gonadal hormones to sexual differentiation of behavior in Japanese quail (Coturnix coturnix japonica). Males and females were gonadectomized or sham-operated (controls) prior to age 7 days posthatching. At age 4-9 weeks controls were gonadectomized. All birds were then given 2 weeks of testosterone propionate injections and tested for sexual behavior with female partners. Neonatally gonadectomized females exhibited more male-typical copulatory behavior than control females, but this effect was not statistically significant. Neonatal gonadectomy had no effect on males, and neonatally gonadectomized males exhibited significantly more male-typical copulatory behavior than neonatally gonadectomized females. Although the process of sexual differentiation may extend to a minor degree into the posthatching period in females, nonetheless it is largely complete at hatching in this species.     

Postnatal differentiation of the immunohistochemical expression of aromatase P450 in the rat pituitary gland

At our laboratory, we have recently demonstrated the immunohistochemical expression of aromatase P450 in the pituitary glands of adult rats; this expression was seen to be sex-dependent. In order to determine whether the changes in the expression of the enzyme are related to changes in the gonadal sphere and whether the expression of the enzyme is related to the postnatal differentiation of hypophyseal cytology, in the present work we performed an immunohistochemical study in the rat pituitary gland from birth to old age. The immunohistochemical reaction to aromatase was evident and very generalized at 7 days after birth, with no large differences between the male and female animals. At 14 days the immunohistochemical reaction was decreased in the females, with no changes in the males. At 17 days, aromatase immunoreactivity in the pituitary glands of female rats was very weak whereas the males showed large numbers of reactive cells. These observations were further pronounced at 21 days and 2 months of life. At 24 months, the immunoreactivity found in the pituitary glands of the male rats had almost completely disappeared. Our results show that a postnatal differentiation in the immunohistochemical expression of aromatase occurs; this is tightly linked to sexual activity and is lost in old age. This suggests that hypophyseal aromatase would be related to the mechanisms of action of gonadal steroids on hypophyseal differentiation and secretion.