Adult Castrate Research Articles

Intake, total apparent digestibility, and microbial efficiency of sheep fed pineapple waste silage in different planes of nutrition

The study aimed to nutritionally evaluate the silage of pineapple crop waste in sheep feeding in different planes of nutrition (L). We used eight growing sheep and four male castrated adults, in individual metabolic cages distributed in a switch-back design with two treatments and three periods. The treatments were the different planes of nutrition: L = MEI⁄Mm, MEI⁄1.5Mm, and MEI⁄2.5Mm, in which L = MEI/Mm, MEI is the energy amount of the feed intake and Mm is the maintenance. [...]

Effects of environmental Bisphenol A exposures on germ cell development and Leydig cell function in the human fetal testis.

BackgroundUsing an organotypic culture system termed human Fetal Testis Assay (hFeTA) we previously showed that 0.01 μM BPA decreases basal, but not LH-stimulated, testosterone secreted by the first trimester human fetal testis. The present study was conducted to determine the potential for a long-term antiandrogenic effect of BPA using a xenograft model, and also to study the effect of BPA on germ cell development using both the hFETA and xenograft models.MethodsUsing the hFeTA system, first trimester testes were cultured for 3 days with 0.01 to 10 μM BPA. For xenografts, adult castrate male nude mice were injected with hCG and grafted with first trimester testes. Host mice received 10 μM BPA (~ 500 μg/kg/day) in their drinking water for 5 weeks. Plasma levels of total and unconjugated BPA were 0.10 μM and 0.038 μM respectively. Mice grafted with second trimester testes received 0.5 and 50 μg/kg/day BPA by oral gavage for 5 weeks.ResultsWith first trimester human testes, using the hFeTA model, 10 μM BPA increased germ cell apoptosis. In xenografts, germ cell density was also reduced by BPA exposure. Importantly, BPA exposure significantly decreased the percentage of germ cells expressing the pluripotency marker AP-2γ, whilst the percentage of those expressing the pre-spermatogonial marker MAGE-A4 significantly increased. BPA exposure did not affect hCG-stimulated androgen production in first and second trimester xenografts as evaluated by both plasma testosterone level and seminal vesicle weight in host mice.ConclusionsExposure to BPA at environmentally relevant concentrations impairs germ cell development in first trimester human fetal testis, whilst gonadotrophin-stimulated testosterone production was unaffected in both first and second trimester testis. Studies using first trimester human fetal testis demonstrate the complementarity of the FeTA and xenograft models for determining the respective short-term and long term effects of environmental exposures.

Characterization of the Spinal Nucleus of the Bulbocavernosus Neuromuscular System in Male Mice Lacking Androgen Receptor in the Nervous System

Motoneurons in the spinal nucleus of the bulbocavernosus (SNB) and their target bulbocavernosus (BC) and levator ani (LA) muscles play a role in male copulation and fertility. Testosterone (T) induces sexual differentiation of this SNB neuromuscular system during development and maintains its activation in adulthood. In the rat, T-induced effects mostly involve the androgen receptor (AR). However, the role of central AR in T-induced effects remains to be studied with pertinent genetic models. We addressed this question by using specific motoneuron immunolabeling and retrograde tracing in mice selectively disrupted for AR in the nervous system. This work reveals that nervous system AR is not required either for T-induced development of BC-LA muscles and perinatal sparing of SNB motoneurons from atrophy or for adult sensitivity of BC-LA muscles to T. By contrast, loss of AR expression in the nervous system resulted in SNB motoneurons having smaller somata and shorter dendrites than controls. We studied the effects of adult castration and T supplementation on SNB cell morphology in control and mutant males; these experiments showed that central AR is involved in the developmental regulation of soma size and dendritic length and in the adult maintenance of soma size of SNB motoneurons. T seemed to act indirectly through BC-LA muscles to maintain dendritic length in adulthood. Our results also suggest that central AR functions may contribute to normal activity of SNB motoneurons and perineal muscles because mutant mice displayed diminished copulatory behavior and fertility.

Gonadal Steroids Regulate Neural Plasticity in the Sexually Dimorphic Nucleus of the Preoptic Area of Adult Male and Female Rats

Background: The densely staining sexually dimorphic nucleus of the preoptic area (SDNPOA) is profoundly affected by gonadal steroids during perinatal development. Methods: We tested whether the SDNPOA in rats also remains responsive to gonadal hormones in adulthood. Results: Castration of 60-day-old male rats led to a reduction of soma size in SDNPOA neurons 28 days later, but not 14 days later. In contrast, the SDNPOA volume in males was unaffected by adult castration, increasing somewhat between 60 and 88 days of age in both castrated males and sham controls. For female rats ovariectomized at 60 days of age, testosterone treatment resulted in a significantly larger SDNPOA soma size after either 14 or 28 days of treatment, compared to blank-treated controls. Testosterone-treated ovariectomized females also had a modestly larger SDNPOA volume after 28 days, but not 14 days, of treatment compared to blank-treated ovariectomized animals. A second experiment revealed that these effects in females were due to ovariectomy: both SDNPOA soma size and regional volume shrank in females that were ovariectomized compared to females subjected to sham surgery. The effects of ovariectomy were blocked by testosterone treatment. The cessation of testosterone treatment in females returned SDNPOA soma size and regional volume to that of control-treated ovariectomized females. Conclusion: These results indicate considerable plasticity of the adult rat SDNPOA, and that (1) circulating androgens are required to maintain soma size, but not regional volume in males, and (2) ovarian steroids maintain both soma size and regional volume of the SDNPOA in females, an effect that can be mimicked with testosterone treatment and is fully reversible in adulthood.

Testosterone treatment promotes tubular damage in experimental diabetes in prepubertal rats

Puberty unmasks or accelerates progressive kidney diseases, including diabetes mellitus (DM), perhaps through effects of sex steroids. To test the hypothesis that rising androgen levels at puberty permit diabetic kidney damage, we studied four groups of male rats with and without streptozocin-induced DM: adult onset (A), adult onset after castration (AC), juvenile onset (J), and juvenile onset with testosterone treatment (JT). Profibrotic markers were measured after 6 wk with blood glucose levels 300-450 mg/dl. JT permitted increased expression of mRNA for two isoforms of transforming growth factor-beta and connective tissue growth factor compared with J animals with DM; prior castration did not provide protection in adult-onset DM. JT also permitted greater tubular staining for alpha-smooth muscle actin and fibroblast-specific protein, two markers of cell damage and potential epithelial mesenchymal transition. Once again, castration was not protective for these effects of DM in the AC group. These data indicate that puberty permits detrimental effects in the tubulointerstitium in the diabetic kidney, an effect mimicked by testosterone treatment of juvenile animals and partially blunted by castration of adults, but damage does not correlate with testosterone levels, suggesting a less direct mechanism.

Androgen-sensitivity of somata and dendrites of spinal nucleus of the bulbocavernosus (SNB) motoneurons in male C57BL6J mice

In rats, androgens in adulthood regulate the morphology of motoneurons in the spinal nucleus of the bulbocavernosus (SNB), including the size of their somata and the length of their dendrites. There are conflicting reports about whether androgens exert similar influences on SNB motoneurons in mice. We castrated or sham-operated C57BL6J mice at 90 days of age and, thirty days later, injected cholera toxin conjugated horseradish peroxidase into the bulbocavernosus muscle (to label SNB motoneurons) on one side, and into intrinsic foot muscles contralaterally (to label motoneurons of the retrodorsolateral nucleus (RDLN)). Castrated mice had significantly smaller SNB somas compared to sham-operated mice while there were no differences in soma size of RDLN motoneurons. Dendritic length in C57BL6J mice, estimated in 3-dimensions, also decreased significantly after adult castration. In rats, androgens act directly through androgen receptors (AR) in SNB motoneurons to control soma size and nearly all SNB motoneurons contain AR. Since SNB somata in C57BL6J mice shrank after adult castration, we used immunocytochemistry to characterize AR expression in SNB cells as well as motoneurons in the RDLN and dorsolateral nucleus (DLN). A pattern of labeling matched that seen previously in rats: the highest percentage of AR-immunoreactive motoneurons are in the SNB (98%), the lowest in the RDLN (25%) and an intermediate number in the DLN (78%). This pattern of AR labeling is consistent with the possibility that androgens also act directly on SNB motoneurons in mice to regulate soma size in mice.

The Effect of Digitalis or a Beta-Blocker, Alone or in Combination, on Atrial Fibrillation at Rest and During Exercise

Carbonic anhydrase (CA) isozymes CAII and CAIII were assayed by a radioimmunosorbent technique in liver cytosolic fractions and in isolated hepatocytes of adult male and female rats. Male livers contained 0.16 mg of CAII and 57 mg of CAIII per g cytosolic protein. Corresponding values for female livers were 0.34 mg CAII and 4 mg CAIII. Similar values and differences between CAII and III were found in isolated hepatocytes. Neonatal and adult castration of males reduced the CAIII levels to those of the females. Treatment with testosterone for three weeks restored the copulatory behaviour in the males castrated at adult age, but restored only partially the levels of CAIII. No significant effects of the endocrine manipulations were seen on CAII.Oophorectomy, with or without testosterone substitution, had no significant effect on CAII and CAIII levels in female rats.Immunohistochemistry and histochemistry showed that the regulation of CAIII is confined to perivenous hepatocytes. CAIII can therefore serve as a useful marker in the separation of these cells.CAIII appears to belong to the proteins and enzymes of the rat liver, known to be regulated via the hypothalamo-pituitary-liver axis. It may be used as a model of gene regulation in perivenous hepatocytes.

Androgen-Linked Control of Carbonic Anhydrase III Expression Occurs in Rat Perivenous Hepatocytes; an Immunocytochemical Study

Carbonic anhydrase (CA) isozymes CAII and CAIII were assayed by a radioimmunosorbent technique in liver cytosolic fractions and in isolated hepatocytes of adult male and female rats. Male livers contained 0.16 mg of CAII and 57 mg of CAIII per g cytosolic protein. Corresponding values for female livers were 0.34 mg CAII and 4 mg CAIII. Similar values and differences between CAII and III were found in isolated hepatocytes. Neonatal and adult castration of males reduced the CAIII levels to those of the females. Treatment with testosterone for three weeks restored the copulatory behaviour in the males castrated at adult age, but restored only partially the levels of CAIII. No significant effects of the endocrine manipulations were seen on CAII.Oophorectomy, with or without testosterone substitution, had no significant effect on CAII and CAIII levels in female rats.Immunohistochemistry and histochemistry showed that the regulation of CAIII is confined to perivenous hepatocytes. CAIII can therefore serve as a useful marker in the separation of these cells.CAIII appears to belong to the proteins and enzymes of the rat liver, known to be regulated via the hypothalamo-pituitary-liver axis. It may be used as a model of gene regulation in perivenous hepatocytes.

Short-Term Stress Increases Testosterone Secretion from Testes in Male Domestic Fowl

Prolonged stress inhibits the hypothalamus–pituitary–gonadal (HPG) axis and reduces plasma testosterone (T). However, enhanced secretion of luteinizing hormone (LH) and T has been documented during the initial stages of acute stress in mammals. This study assayed the effect of short-term stress on plasma T and corticosterone (B) in juvenile, pubertal, and adult White Leghorn cockerels. Stress was induced by brief physical restraint of caged juvenile (7 weeks), pubertal (17 weeks), and adult (40 weeks) cockerels, as well as 40-week-old adults reared together in a room lined with wood shavings (group reared). Blood was sampled immediately before restraint (0 time), at the end of a 10-min restraint period, and at 30, 60, and 180 min after 0 time. Restraint resulted in an initial increase in plasma T in all groups, along with a rise in B. Whereas B generally reached its peak level at the end of the restraining period, T peaked 20 min later. The maximum increase of T and B relative to prestress levels (T and B ratios) was similar in all groups, with median T ratio reaching 1.25–1.5—about half that of the B ratio. Thus, the extent of T and B response to short-term stress was not influenced by basal levels of T, which were highest in adults, and basal levels of B, which were higher in caged adults than in group-reared adults. Injection of ACTH did not induce a greater increase in plasma T than in sham-injected controls. Further, the elevation of T in response to stress was extinguished in castrated adults, indicating that T is secreted from the testes rather than the adrenals in response to stress. When the same regime of blood sampling was applied to adults not subjected to restraint, the T ratio rose by up to 11 times. It can therefore be stipulated that T response depends on the type of stress applied, a factor that should be considered when investigating androgen levels in plasma.

Investigation of sexual dimorphism in the rabbit masseter muscle showing different effects of androgen deprivation in adult and young adult animals

To evaluate the role played by androgens in the development and maintenance of sex differences in the proportion of muscle fibres of different phenotypes, the effects of castration in adult (>6 months old) and in young adult (2–3 months old) male rabbits was examined. Immunohistochemical methods were used to evaluate the proportion of muscle fibres containing different myosin heavy-chain isoforms in 10 different neuromuscular compartments of the masseter. In young adult animals of both sexes, the proportion of fibres of different phenotypes in different compartments was not significantly different from that of normal adult females. In animals castrated as young adults, the development of adult male phenotype proportions was completely blocked in most compartments. In animals castrated as adults, proportions were not significantly different from those of the intact males. For most masseter compartments, androgens produced permanent changes in muscle fibre phenotype during a critical period of postnatal development. However, in the posterior deep compartment, androgen deprivation in young adults had no effect on phenotype proportions, but castration of adults resulted in a striking increase in the proportion of fibres containing the IIa myosin heavy-chain isoform.

Organizational and activational effects of gonadal steroid hormones on the EEG of male and female rats.

To analyze organizational and activational effects of sex steroids on adult rat electroencephalographic activity (recorded at postnatal day 100), seven groups were included: males (48)-intact, neonatally or adult castrated; females (64)-intact, ovariectomized and exposed pre- or neonatally to testosterone propionate. In males, neonatal orchidectomy increased beta relative power, whereas both neonatal and adult castration reduced interparietal correlation. In females, prenatal testosterone administration produced higher theta absolute power; theta relative power was higher in all experimental groups, whereas beta1 and beta2 were decreased by prenatal and increased by neonatal virilization; prenatal virilization enhanced, while neonatal virilization and adult ovariectomy decreased interparietal correlation. These data indicate that females are more sensitive to early prenatal than to neonatal organizational effects of sex steroids, and some electroencephalographic features are feminized in castrated males and virilized in perinatally androgenized females.

A brain sexual dimorphism controlled by adult circulating androgens.

Reports of structural differences between the brains of men and women, heterosexual and homosexual men, and male-to-female transsexuals and other men have been offered as evidence that the behavioral differences between these groups are likely caused by differences in the early development of the brain. However, a possible confounding variable is the concentration of circulating hormones seen in these groups in adulthood. Evaluation of this possibility hinges on the extent to which circulating hormones can alter the size of mammalian brain regions as revealed by Nissl stains. We now report a sexual dimorphism in the volume of a brain nucleus in rats that can be completely accounted for by adult sex differences in circulating androgen. The posterodorsal nucleus of the medial amygdala (MePD) has a greater volume in male rats than in females, but adult castration of males causes the volume to shrink to female values within four weeks, whereas androgen treatment of adult females for that period enlarges the MePD to levels equivalent to normal males. This report demonstrates that adult hormone manipulations can completely reverse a sexual dimorphism in brain regional volume in a mammalian species. The sex difference and androgen responsiveness of MePD volume is reflected in the soma size of neurons there.

Prenatal Gonadal Steroids Affect Adult Spatial Behavior, CA1 and CA3 Pyramidal Cell Morphology in Rats

The present study assessed whether prenatal androgen and estrogen exposure affected adult spatial learning and hippocampal morphology. Water maze performance, the CA1 and CA3 pyramidal cell field, and the dentate gyrus-granule cell layer (DG-GCL) morphology were assessed at adulthood (70+ days of age) in males, females, androgen-treated (testosterone propionate, TP, or dihydrotestosterone propionate, DHTP) females (2–4 mg/day), estradiol benzoate (EB)-treated females (100 μg/day), and males treated with the antiandrogen flutamide (8 mg/day). Pregnant rats were injected daily (sc) between Embryonic Day 16 and birth; all pups were delivered by cesarean section. Flutamide-treated males were castrated upon delivery, and adult castrates were used to control for activational effects. Steroid-sensitive sex differences were observed in water maze performance in favor of males. Males had larger CA1 and CA3 pyramidal cell field volumes and soma sizes than females, which were feminized with flutamide treatment. TP and EB, but not DHTP, masculinized CA1 pyramidal cell field volume and neuronal soma size; CA3 was masculinized in both TP- and DHTP-treated females, while EB was ineffective. No effects were observed in cell density, number, or DG-GCL volume or due to adult hormone levels. Thus, prenatal androgens and estrogen influence sex differences in adult spatial navigation and exert differential effects on CA1 and CA3 pyramidal cell morphology. Hence, in addition to the previously reported postnatal component, there is also a prenatal component to the critical period in which gonadal steroids organize the neural mechanisms underlying sex differences in adult spatial ability.

Genistein exerts estrogen-like effects in male mouse reproductive tract

The aim of this study was to evaluate the estrogenicity of genistein in the neonatal and adult male mouse reproductive tract. In intact adults, genistein (2.5 mg s.c./kg of body weight/day for 9 days) reduced testicular and serum testosterone concentrations, pituitary LH-content and prostate weight. In castrated adults, genistein (0.025–2.5 mg s.c./kg of body weight) increased expression of c-fos gene in prostatic urethra. In adult, neonatally estrogenized mice showing an increased estrogen sensitivity, a 10-day treatment with genistein (2.5 mg s.c./kg of body weight) induced development of squamous epithelial metaplasia in prostatic collecting ducts. Neonatally, only a very high dose of genistein (1 mg/pup per day; i.e. ≈500 mg/kg of body weight) induced persistent structural changes, similar to those seen in mice treated neonatally with diethylstilbestrol, in the urethroprostatic complex. These results suggest that in adult males, genistein induces the typical estrogenic effects in doses comparable to those present in soy-based diets, while in neonatal animals, considerably higher doses are required to show estrogen-like activity.

Gonadotropin-releasing hormone pulses are required to maintain activation of mitogen-activated protein kinase: role in stimulation of gonadotrope gene expression.

The present study examined the effect of alterations in GnRH signal pattern (pulsatile vs. continuous; pulse frequency) on mitogen-activated protein kinase (MAPK) activity and whether MAPK plays a role in regulating gonadotrope gene expression. Pituitary MAPK activity was measured by immunoblot, using a phospho-specific MAPK antibody, corrected to the amount of total MAPK per sample. In vivo studies were conducted in adult castrate testosterone-replaced male rats (to suppress endogenous GnRH). Animals received pulsatile or continuous GnRH (or BSA-saline for controls) via jugular cannulas. Initial studies revealed that pulsatile GnRH stimulated a dose-dependent rise in MAPK activity (30 ng, 2-fold increase; 100 ng, 4-fold; 300 ng, 8-fold) 4 min after the pulse. The effect of pulsatile vs. continuous GnRH was examined by administering 50-ng pulses (60-min interval) or a continuous infusion (25 ng/min) for 1, 2, 4, or 8 h. Pulsatile GnRH stimulated a 2- to 4-fold rise in MAPK activity (P < 0.05 vs. controls) that was maintained over the 8-h duration. In contrast, continuous GnRH only increased MAPK activity (2- to 3-fold; P < 0.05 vs. controls) for 2 h, with MAPK activity returning to baseline at later time points. The effect of GnRH pulse frequency on MAPK activation was determined by giving GnRH pulses (50 ng) at 30-, 60-, or 120-min intervals for 8 h. Maximal increases (3-fold vs. controls; P < 0.05) were seen after 120-min pulses, with faster (30- to 60-min interval) pulses stimulating 2-fold increases in MAPK activity (P < 0.05 vs. controls and 120-min GnRH pulse group). The role of MAPK activation on gonadotrope (alpha, LHbeta, FSHbeta, and GnRH receptor) gene expression was determined in vitro. Preliminary studies demonstrated that the MAPK inhibitor, PD-098059 (50 microM), completely blocked GnRH-induced increases in MAPK activity in adult male pituitary cells. Further studies revealed that PD-098059 blocked gonadotrope messenger RNA (mRNA) responses to pulsatile GnRH (100 pg/ml, 60-min interval, 24-h duration) in a selective manner, with alpha, FSHbeta, and GnRH receptor (but not LHbeta) mRNA responses being suppressed. These results show that a pulsatile GnRH signal is required to maintain MAPK activation for durations of longer than 2 h, and that slower frequency pulses are more effective. Further, MAPK plays a crucial role in alpha, FSHbeta, and GnRH receptor mRNA responses to pulsatile GnRH. Thus, divergent MAPK responses to alterations in GnRH signal pattern may be one mechanism involved in differential regulation of gonadotrope gene expression.

Expression and androgen regulation of the ciliary neurotrophic factor receptor (CNTFRα) in muscles and spinal cord

We have previously observed that ciliary neurotrophic factor (CNTF) can prevent the degeneration of androgen-sensitive perineal motoneurons and their target muscles, the bulbocavernosus and levator ani (BC/LA), in perinatal female rats. Response to CNTF is dependent on the expression of the alpha component of the CNTF receptor (CNTFRα). In the present study, we examined the developmental profile and androgen regulation of CNTFRα gene expression in BC/LA muscle, thigh muscle, and lumbosacral spinal cord. CNTFRα mRNA was abundantly expressed in the BC/LA and thigh around the time of birth; expression declined progressively after birth and remained low into adulthood. In contrast, CNTFRα message remained high in the lumbosacral spinal cord throughout development. Androgen regulation of CNTFRα expression was examined in prenatal animals by administering the androgen receptor blocker hydroxyflutamide from embryonic days E18 through E21. Four days of androgen deprivation caused a significant up-regulation of CNTFRα mRNA in the BC/LA, thigh, and spinal cord of male fetuses. After castration in adulthood, CNTFRα expression in the BC/LA transiently increased, then decreased below control levels. Expression of CNTFRα in thigh muscles and the lumbosacral spinal cord was not affected by adult castration. Thus, the perineal muscles and motoneurons are potential sites of direct CNTF action, and expression of the CNTFRα gene is modulated by androgen, especially in the androgen-sensitive perineal muscles. Transient up-regulation of CNTFRα following castration or androgen receptor blockade may represent a protective response designed to counteract the muscle atrophy normally induced by androgen withdrawal. © 1998 John Wiley & Sons, Inc. J Neurobiol 35: 217–225, 1998

Expression and androgen regulation of the ciliary neurotrophic factor receptor (CNTFR?) in muscles and spinal cord

We have previously observed that ciliary neurotrophic factor (CNTF) can prevent the degeneration of androgen-sensitive perineal motoneurons and their target muscles, the bulbocavernosus and levator ani (BC/LA), in perinatal female rats. Response to CNTF is dependent on the expression of the alpha component of the CNTF receptor (CNTFRalpha). In the present study, we examined the developmental profile and androgen regulation of CNTFRalpha gene expression in BC/LA muscle, thigh muscle, and lumbosacral spinal cord. CNTFRalpha mRNA was abundantly expressed in the BC/LA and thigh around the time of birth; expression declined progressively after birth and remained low into adulthood. In contrast, CNTFRalpha message remained high in the lumbosacral spinal cord throughout development. Androgen regulation of CNTFRalpha expression was examined in prenatal animals by administering the androgen receptor blocker hydroxyflutamide from embryonic days E18 through E21. Four days of androgen deprivation caused a significant up-regulation of CNTFRalpha mRNA in the BC/LA, thigh, and spinal cord of male fetuses. After castration in adulthood, CNTFRalpha expression in the BC/LA transiently increased, then decreased below control levels. Expression of CNTFRalpha in thigh muscles and the lumbosacral spinal cord was not affected by adult castration. Thus, the perineal muscles and motoneurons are potential sites of direct CNTF action, and expression of the CNTFRalpha gene is modulated by androgen, especially in the androgen-sensitive perineal muscles. Transient up-regulation of CNTFRalpha following castration or androgen receptor blockade may represent a protective response designed to counteract the muscle atrophy normally induced by androgen withdrawal.

Brain region-specific regulation of luteinizing hormone-releasing hormone messenger ribonucleic acid in the male ferret: interactions between pubertal maturation and testosterone.

This study examined the regulation of LHRH messenger RNA (mRNA) during pubertal maturation and by testosterone in male ferrets. Prepubertal and postpubertal ferrets were either intact or were castrated and treated with daily injections of oil or 5 mg/kg testosterone propionate for 14 days. In situ hybridization for LHRH mRNA was performed using an 35S-labeled 48-base oligonucleotide complementary to the human LHRH-coding region. Computerized image analysis was performed on cells in the preoptic area, retrochiasmatic area, arcuate nucleus (ARC), and median eminence; cells were classified as labeled if the number of pixels representing silver grains over the cell was 5 or more times the number of background silver grain pixels. Both pubertal maturation of intact males and castration of prepubertal males resulted in an increase in the number of labeled cells in the ARC. These effects were not observed in any of the other three brain regions, suggesting that ARC LHRH-producing neurons are of primary importance in the presumed increase in LHRH release that occurs as a consequence of either pubertal maturation or castration of prepubertal males. Castration of adults did not increase the number of labeled cells in any brain area, but resulted in an increase in silver grains per labeled cell only in the preoptic area. Thus, LHRH mRNA is regulated during puberty primarily in the ARC, and the particular cell group in which LHRH mRNA is most strongly regulated by testosterone changes with pubertal maturation.

Motoneurons dorsolateral to the central canal innervate perineal muscles in the mongolian gerbil

The Mongolian gerbil provides a model in which sexually dimorphic areas in the hypothalamus are correlated with sociosexual behaviors such as scent marking and male copulatory behavior. To extend this model, investigations were conducted to determine whether sexually dimorphic areas existed in the spinal cord that could be relevant to male sexual behavior. The focus of these investigations was the perineal muscles associated with the penis. Therefore, this research identified the spinal motoneurons that innervate the bulbocavernosus, levator ani, anal sphincter, and ischiocavernosus muscles of Mongolian gerbils. The motoneuron pool that innervates the bulbocavernosus, levator ani, and anal sphincter was designated the spinal nucleus of the bulbocavernosus (SNB), as for other species of rodents. The motoneuron pool innervating the ischiocavernosus was identified as the dorsolateral nucleus, again, to be consistent with the designation for other rodents. The motoneurons of the gerbil SNB were distributed dorsolateral to the central canal in the lumbosacral transition zone of the spinal column. These motoneurons are located in the region classically defined as area X of the spinal cord. The number of SNB motoneurons was sexually dimorphic, with male gerbils having about five times as many SNB motoneurons as do female gerbils. The size of SNB motoneurons was also sexually dimorphic. The SNB motoneurons of males were 1.5 times larger than the SNB motoneurons of females. The effects of adult castration on the male SNB were also studied. After castration, the size, but not the number, of SNB motoneurons in males was significantly decreased. This decrease was prevented by testosterone treatment. The percentage of calcitonin gene-related peptide (CGRP)-immunoreactive SNB motoneurons was also affected by adult castration. The percentage of CGRP-immunoreactive motoneurons was significantly decreased after adult castration. Again, this decrease was reversed by testosterone treatment. These findings suggest that the SNB of gerbils is sexually dimorphic and is sensitive to circulating levels of gonadal steroids. The unique placement of the SNB motoneurons suggests that an alternative laminar organizational scheme may be necessary for Mongolian gerbil.

Testosterone stimulates prostanoid production by rat vas deferens

The rat isolated vas deferens produces and releases prostanoids into an incubation medium. Production of these substances from the exogenous precursor 14C arachidonic acid was studied in prepubertal, pubertal and adult animals. Synthesis of prostaglandin F, prostaglandin E, prostaglandin D and thromboxane B 2 is lower in prepubertals arid increases significantly in pubertals, with no further modifications in adults. Castration of pubertals and adults dramatically reduces the production of all measured arachidonic acid metabolites but does not modify it in prepubertals. Replacement therapy with testosterone propionate significantly enhances prostanoid production in pubertal and adult castrated rats. Similar treatment on normal prepubertals also increases synthesis, indicating that androgens could be modulators of prostanoid synthesis in vas deferens. The lower effects obtained treating castrated adults with progesterone and with 17-β estradiol suggest an action, at least partially specific for androgenic steroids. It is concluded that prostanoid production by the rat vas deferens from an exogenous predursor is closely related to the presence of androgens.