Sex steroids and their involvement in the cortisol-induced inhibition of pubertal development in male common carp,Cyprinus carpio L

The onset and regulation of puberty is determined by functional development of the brain-pituitary-gonad (BPG) axis. Sex steroids produced in the gonads play an important role in the onset of puberty. Stress interferes with reproduction and the functioning of the BPG axis, and cortisol has frequently been indicated as a major factor mediating the suppressive effect of stress on reproduction. Prolonged elevated cortisol levels, implicated in stress adaptation, inhibited pubertal development in male common carp (Cyprinus carpio). Cortisol treatment caused a retardation of pubertal testis development and reduced the LH pituitary content and the salmon GnRHa-stimulated LH secretion in vitro. A reduced synthesis of androgens also was observed. These findings suggest that the cortisol-induced inhibition of testicular development and the maturation of pituitary gonadotrophs are mediated by an effect on testicular androgen secretion. In this study, we combined cortisol treatment with a replacement of the testicular steroid hormones (testosterone and 11-oxygenated androgens) to investigate the role of these steroids in the cortisol-induced suppression of pubertal development. The effect of cortisol on spermatogenesis was independent of 11-ketotestosterone, whereas the effect on the pituitary was an indirect one, involving the testicular secretion of testosterone.     

Plasma concentrations of testosterone, dihydrotestosterone, delta 4-androstenedione, dehydroepiandrosterone and oestradiol-17 beta in the crab-eating monkey (Macaca fascicularis) from birth to adulthood

Plasma testosterone, 5 alpha-dihydrotestosterone (DHT), delta 4-androstenedione, dehydroepiandrosterone (DHA) and oestradiol-17 beta concentrations of crab-eating macaques after birth were analysed by RIA. The profiles of plasma testosterone and DHT exhibited four phases: (1) a neonatal phase (0 to 3-4 months of age) with considerable synthetic testicular activity; (2) a phase of 'infancy' (generally up to 29 months of age) during which the values of both androgens were low; (3) a prepubertal phase (generally up to 43 months of age) when circulating values oscillated with wider individual variations, and (4) a pubertal phase when the concentrations increased in parallel and concomittantly with the onset of meiosis and the establishment of spermatogenesis. The testosterone values continued to increase, reaching adult values at about 5-6 years of age, whereas DHT levels tended to stabilize from 4-5 years. Relatively high androstenedione values during the neonatal phase decreased progressively until puberty, then increased again slowly up to the adult stage when they plateaued at about neonatal levels. The DHA levels were high during the first months, decreased at about 1 year, remained stable during infancy and prepuberty and then declined again during puberty. At about 5 years, the values were 28% of those in neonates. There was no evidence of an adrenarche before the first signs of sexual maturity were observed. Oestradiol-17 beta concentrations were high at birth and until 3 months, then decreased and remained steady from 1 year of age until adulthood, except at the onset of puberty (27-30 months of age) when high values were again noted. Our results show that, during the neonatal period, the testis exhibited considerable secretory activity.     

Testosterone inhibits 11-ketotestosterone-induced spermatogenesis in African catfish (Clarias gariepinus).

Male fish produce 11-ketotestosterone as a potent androgen in addition to testosterone. Previous experiments with juvenile African catfish (Clarias gariepinus) showed that 11-ketotestosterone, but not testosterone, stimulated spermatogenesis, whereas testosterone, but not 11-ketotestosterone, accelerated pituitary gonadotroph development. Here, we investigated the effects of combined treatment with these two types of androgens on pituitary gonadotroph and testis development. Immature fish were implanted for 2 wk with silastic pellets containing 11-ketotestosterone, testosterone, 5alpha-dihydrotestosterone, or estradiol-17beta; cotreatment groups received 11-ketotestosterone in combination with one of the other steroids. Testicular weight and pituitary LH content were higher (two- and fivefold, respectively) in the end control than in the start control group, reflecting the beginning of normal pubertal development. Treatment with testosterone or estradiol-17beta further increased the pituitary LH content four- to sixfold above the end control levels. This stimulatory effect on the pituitary LH content was not modulated by cotreatment with 11-ketotestosterone. However, the stimulatory effect of 11-ketotestosterone on testis growth and spermatogenesis was abolished by cotreatment with testosterone, but not by cotreatment with estradiol-17beta or 5alpha-dihydrotestosterone. Also, normal pubertal testis development was inhibited by prolonged (4 wk) treatment with testosterone. The inhibitory effect of testosterone may involve feedback effects on pituitary FSH and/or on FSH receptors in the testis. It appears that the balanced production of two types of androgens, and the control of their biological activities, are critical to the regulation of pubertal development in male African catfish.     

Profiling of Androgen Response in Rainbow Trout Pubertal Testis: Relevance to Male Gonad Development and Spermatogenesis

The capacity of testicular somatic cells to promote and sustain germ cell differentiation is largely regulated by sexual steroids and notably androgens. In fish species the importance of androgens is emphasized by their ability to induce sex reversal of the developing fries and to trigger spermatogenesis. Here we studied the influence of androgens on testicular gene expression in trout testis using microarrays. Following treatment of immature males with physiological doses of testosterone or 11-ketotestosterone, 418 genes that exhibit changes in expression were identified. Interestingly, the activity of testosterone appeared stronger than that of 11-ketotestosterone. Expression profiles of responsive genes throughout testis development and in isolated germ cells confirmed androgens to mainly affect gene expression in somatic cells. Furthermore, specific clusters of genes that exhibit regulation coincidently with changes in the natural circulating levels of androgens during the reproductive cycle were highlighted, reinforcing the physiological significance of these data. Among somatic genes, a phylogenetic footprinting study identified putative androgen response elements within the proximal promoter regions of 42 potential direct androgen target genes. Finally, androgens were also found to alter the germ line towards meiotic expression profiles, supporting the hypothesis of a role for the somatic responsive genes in driving germ cell fate. This study significantly increases our understanding of molecular pathways regulated by androgens in vertebrates. The highly cyclic testicular development in trout together with functions associated with regulated genes reveal potential mechanisms for androgen actions in tubule formation, steroid production, germ cell development and sperm secretion.     

Precocious initiation of spermatogenesis in a 19-month-old boy with Hurler syndrome

Mucopolysaccharidosis type IH (MPS IH) is a rare autosomal recessive lysosomal storage disorder. Haematopoietic stem cell transplantation (HSCT) has been proposed for the treatment of MPS IH patients and offers the possibility to grow into their adulthood. Precocious puberty has been described in few MPS patients. We report, to the best of our knowledge and for the first time, the initiation of the first waves of spermatogenesis fortuitously observed in seminiferous tubules of a pre-pubertal 19-month-old boy, affected by MPS IH and who did not present any clinical signs of precocious puberty. This patient benefited from testicular tissue cryopreservation before HSCT. Seminiferous tubule size, germ cell differentiation and Sertoli cell expression of androgen receptor and anti-müllerian hormone corresponded to the pattern observed in a pubertal boy. The Hurler syndrome may be responsible for the precocious initiation of spermatogenesis. A specific follow-up during childhood may be useful to confirm if such abnormal testis development is common in young boys with MPS IH and if it may lead to precocious onset of puberty in survivors despite HSCT. Furthermore, we have observed that Sertoli cell maturation (up-regulation of AR expression, down-regulation of AMH expression) occurred before the clinical signs of puberty and before the increase of testosterone plasmatic level.     

The reproductive pattern of male dusky salamanders (genus Desmognathus) is neither associated nor dissociated

Many seasonally breeding vertebrate species have an associated reproductive pattern: mating behavior, gonadal activity, and peak circulating androgen levels occur simultaneously. In these species, androgens influence the expression of male mating behavior. Other species have a dissociated reproductive pattern: mating behavior occurs at a different time than peak gonadal activity. In such species, it is hypothesized that mating behavior is not dependent on androgen levels [Crews, D., 1984. Gamete production, sex hormone secretion, and mating behavior uncoupled. Horm. Behav. 18, 22-28]. The salamander Desmognathus ochrophaeus mates in the spring and fall while spermatogenesis occurs during the summer, suggesting that it has a dissociated reproductive pattern and that androgens do not mediate mating behavior. To assess whether mating behavior is regulated by gonadal androgens, we castrated males to reduce endogenous androgens and implanted testosterone propionate (TP) to restore androgen levels. Castrated males mated significantly less than did control males. Castrated males given TP mated as much as control males. Compared to controls, circulating androgen levels (both testosterone (T) and dihydrotestosterone (DHT)) were reduced in castrated males and elevated in castrated males given TP implants. We also found that plasma corticosterone (CORT) levels were strongly and positively correlated with T levels. Together, these data indicate that, although spermatogenesis is dissociated in time from mating behavior, androgens are associated with the expression of mating. Thus, the associated-dissociated dichotomy does not adequately describe the reproductive pattern of D. ochrophaeus. We discuss the limitations of the associated-dissociated framework in clarifying hormone-behavior relationships in reptiles and amphibians.     

Influence of 5 alpha-reduced androgens on oestradiol secretion by granulosa cells of pregnant mare serum gonadotrophin treated immature rats

The effect of aromatizable androgens (testosterone and androstenedione) and naturally occurring 5 alpha-androstane, 3 alpha 17 beta-diol and 5 alpha-androstane, -3 beta, 17 beta-diol on oestradiol secretion by granulosa cells isolated from preovulatory follicles of PMSG-primed immature rats was investigated. The amount of oestradiol secreted by granulosa cells in the absence of exogenous aromatizable androgen in a 4h incubation was negligible. However, the addition of testosterone or androstenedione resulted in concentration dependent increases in oestradiol secretion. The 5 alpha-reduced androgens inhibit oestradiol and oFSH-stimulated oestradiol secretion by the granulosa cells in the presence of exogenous testosterone. The least potent of the androgens tested in causing this effect being the 5 alpha-androstane-3 alpha, 17 beta-diol. This result suggests that the naturally occurring 5 alpha-reduced androgens have a direct effect on androgen-aromatizing enzymes. The effect of these androgens may have an important connotation with respect to the control of the onset of puberty and regulation of ovarian oestradiol secretion within the microenvironment of an ovarian follicle.     

5alpha-Reductase activity in Lycopersicon esculentum: cloning and functional characterization of LeDET2 and evidence of the presence of two isoenzymes

The full-length cDNA (LeDET2) encoding a 257 amino acid protein homolog of Arabidopsis DET2 (AtDET2) was isolated in tomato (Lycopersicon esculentum). LeDET2 has 76% similarity with AtDET2 and structural characteristics conserved among plant and mammalian steroid 5alpha-reductases (5alphaRs). LeDET2 is ubiquitously expressed in tomato tissues with higher levels in leaf than in stem, root, seed and callus. When expressed in mammalian cells (COS-7), recombinant LeDET2 was active on substrates typical of mammalian 5alphaRs (progesterone, testosterone, androstenedione), but reduced at very low levels campestenone, the substrate described for AtDET2. Similar results were obtained with the expression in COS-7 of recombinant AtDET2 that showed 5alphaR activity for progesterone and not for campestenone. Recombinant LeDET2 was inhibited by several inhibitors of the human 5alphaRs and the application of an active inhibitor to tomato seedlings induced dwarfism and morphological changes similar to BR-deficient mutants. In tomato tissues, campestenone was 5alpha-reduced in leaf, stem and root homogenates, like progesterone and testosterone, while androstenedione was converted to testosterone, evidencing for the first time a 17beta-hydroxysteroid dehydrogenase activity in plants. Moreover, two separate 5alphaR activities with different kinetic characteristic and response to inhibitors were characterized in tomato tissues. The presence of two 5alphaR isoenzymes was demonstrated also in Arabidopsis using the det2-1 mutant, in which a residual 5alphaR activity for campestenone and progesterone was evidenced and characterized. Therefore, the existence of two isoenzymes of 5alphaR is probably characteristic of the whole plant kingdom highlighting the similarities between the animal and plant steroid biosynthetic pathways.     

Spermatogenesis parameters and testosterone production at puberty as predictors of testicular functional activity in mice (<Emphasis Type="Italic">Mus musculus</Emphasis>)

The aim of this study was to investigate fertility-associated parameters of spermatogenesis and androgenic status in male laboratory mice at puberty and to assess their prognostic significance in the realization of the definitive testicular function. In three inbred murine strains, BALB/cLac, CBA/Lac and PT, the serum testosterone level, its testicular concentration, epididymal sperm count (sperm reserve) and portion of sperm with abnormal head morphology were evaluated on days 45 (puberty) and 90 (adulthood) of postnatal development. CBA/Lac males were characterized by a lower epididymal sperm count vs. other strains at both ages indicative of poorer spermatogenesis. At the same time, CBA/Lac males had a lower portion of sperm with abnormal head morphology, and this could be considered as a compensatory reaction aimed at improving sperm fertility. Distinct inter-strain differences in the portion of sperm with morphologically abnormal heads were established at both ages, while the inter-strain ratio remained invariable (BALB/cLac > PT > CBA/Lac). Thus, the level of abnormal spermatogenesis in the pubertal period may have a predictive significance for the definitive testicular activity in adult mice. No inter-strain and age-dependent changes were found in serum and testicular testosterone levels except for the PT strain, in which both testosterone levels rose from puberty to adulthood, suggesting a shift of the pubertal testosterone peak towards later times. Our data show that in male laboratory mice the genetic peculiarities of the testicular function manifest themselves during puberty and persist until adulthood.     

Studies on the kinetics of the interaction of 7 alpha-hydroxytestosterone with the steroid 5 alpha-reductase

Microsomal preparations from adult male rat testicular interstitial cells were incubated with tritiated testosterone. Added 7 alpha-hydroxytestosterone, (7 alpha,17 beta-dihydroxy-4-androsten-3-one), at levels which appear to exist in the adult testis, inhibited production of labelled 5 alpha-reduced steroids in a graded fashion. This interaction is not competitive and occurs only at high substrate levels, such as those found in steroid-producing organs. Relationships to pubertal changes in steroid metabolism are discussed.     

Puberty and recrudescence in cultured male yellowtail flounder: plasma androgens and spermatogenesis

Two year classes of cultured male yellowtail flounder Limanda ferruginea were followed in order to examine puberty and recrudescence at the gonadal level, and to assess the impacts of culture conditions on male reproduction. Cultured males demonstrated a propensity for maturation as 1 year‐old fish. Pubertal activation of testicular steroid production was associated with the appearance of primary spermatocytes, but a single case of a premeiotic endocrine activation was detected. The onset of puberty occurred during September and October, when adults were post‐spawned or in early recrudescence. Once initiated, pubertal development proceeded in an uninterrupted progression to full maturity by June at 22 months of age. Spermatogenetic activity during the autumn led to a peak in the gonado‐somatic index and total testicular mass by December. Milt could be first expressed from some pubertal males at this time, well in advance of the May to August spawning period in captivity. Meiotic activity could be absent from the testes by the spring, but residual areas of meiotic activity were found in pubertal males of one year class which may indicate a slower spermatogenetic rate. Androgen levels peaked during prespawning and early spawning; 11‐ketotestosterone (11‐KT) was the dominant androgen throughout spermatogenesis. Recrudescing 2 year‐old males showed greater testicular development and androgen production. Spermatogenetic patterns were similar to those seen in pubertal males, with the distinction that recrudescing males had a more discernable mitotic phase prior to meiotic activity; mitotic and meiotic activity overlapped considerably during early puberty. Testicular development well in advance of spawning may confer an evolutionary advantage to males of this cold‐water marine flatfish.     

The effects of diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxamide (4-MA) and (4R)-5,10-SECO-19-norpregna-4,5-diene-3,10,20-trione (SECO) on androgen biosynthesis in the rat testis and epididymis

We have investigated the effects of two 4-ene-steroid 5 alpha-reductase inhibitors, diethyl-4-methyl-3-oxo-4-aza-5 alpha-androstane-17 beta-carboxamide (4-MA) and (4R)-5,10-seco-19-norpregna-4, 5-diene-3,10,20-trione (SECO), on testicular and epididymal androgen biosynthesis. Kinetic analyses revealed that both compounds inhibited epididymal DHT biosynthesis. 4-MA was a competitive inhibitor of epididymal nuclear and microsomal 4-ene-steroid 5 alpha-reductases (3-oxo-5 alpha-steroid: NADP 4-ene-oxidoreductase EC 1.3.1.22) with Kiapp values of 12.8 and 15.1 nmol/l compared to the respective Kmapp values of 185 and 240 nmol/l. Values for the Vmaxapp were always within 70-130% of the control. SECO at 1.0 mumol/l, also inhibited epididymal nuclear and microsomal 4-ene-steroid-5 alpha-reductases, causing respectively 2.9 and 5.2-fold increases in Kmapp. The Vmaxapp values were unchanged. However, SECO concentrations of 5 and 25 mumol/l abolished 4-ene-steroid 5 alpha-reductase activity at all testosterone concentrations. To examine the specificity of these compounds, we investigated their effects on the enzymes that convert pregnenolone to testosterone. Rat testis microsomes converted pregnenolone to testosterone via the 4-ene-3-oxo pathway, with the major metabolites being progesterone, 17-hydroxyprogesterone, 4-androstenedione and testosterone; some 17-hydroxypregnenolone was also formed. Very small amounts of dehydroepiandrosterone (DHA) and 5-androstenediol were detected. SECO, at a concentration that completely inhibited epididymal 4-ene-steroid 5 alpha-reductase activity, did not alter the metabolic profile of pregnenolone metabolism. However, 4-MA prevented the appearance of 4-ene steroids, and large quantities of 17-hydroxypregnenolone and DHA accumulated, suggesting that inhibition of the 3 beta-hydroxysteroid: NAD(P)+ oxidoreductase (EC 1.1.1.51) and 3-oxosteroid 5-ene-4-ene-isomerase (EC 5.3.3.1) [3 beta-hydroxysteroid dehydrogenase-isomerase] was occurring. Optimal conditions for the microsomal conversion of DHA to 4-androstenedione were determined; kinetic analyses of the 3 beta-hydroxysteroid dehydrogenase-isomerase activity revealed that 4-MA inhibited this reaction non-competitively, reducing Vmaxapp values to 25% of the control. The Kiapp determined from the intercept replot, was 121 nmol/l, and the Kmapp was always between 90 and 130% of the control value. It is concluded that SECO is more specific than 4-MA in its effects on androgen biosynthesis in the testis and epididymis and that both these drugs should provide useful tools in assessments of the relative contributions of 5 alpha-reduced androgens to androgen dependent processes.     

Spermatogenesis and related plasma androgen levels in Atlantic halibut (Hippoglossus hippoglossus L.)

Spermatogenesis in male Atlantic halibut (Hippoglossus hippoglossus L.) was investigated by sampling blood plasma and testicular tissue from 15-39-month-old fish. The experiment covered a period in which all fish reached puberty and completed sexual maturation at least once. The germinal compartment in Atlantic halibut testis appears to be organized in branching lobules of the unrestricted spermatogonial type, because spermatocysts with spermatogonia were found throughout the testis. Spermatogenesis was characterized histologically, and staged according to the most advanced type of germ cell present: spermatogonia (Stage I), spermatogonia and spermatocytes (Stage II), spermatogonia, spermatocytes and spermatids (Stage III), spermatogonia, spermatocytes, spermatids and spermatozoa (Stage IV), and regressing testis (Stage V). Three phases could be distinguished: first, an initial phase with low levels of circulating testosterone (T; quantified by RIA) and 11-ketotestosterone (11-KT; quantified by ELISA), spermatogonial proliferation, and subsequently the initiation of meiosis marked by the formation of spermatocytes (Stage I and II). Secondly, a phase with increasing T and 11-KT levels and with haploid germ cells including spermatozoa present in the testis (Stage III and IV). Thirdly, a phase with low T and 11-KT levels and a regressing testis with Sertoli cells displaying signs of phagocytotic activity (Stage V). Circulating levels of 11-KT were at least four-fold higher than those of T during all stages of spermatogenesis. Increasing plasma levels of T and 11-KT were associated with increasing testicular mass throughout the reproductive cycle. The absolute level of, or the relation between, testis growth and circulating androgens were not significantly different in first time spawners compared to fish that underwent their second spawning season. These results provide reference levels for Atlantic halibut spermatogenesis.     

Androgen-induced changes in Leydig cell ultrastructure and steroidogenesis in juvenile African catfish, Clarias gariepinus

The present report focuses on the mechanism(s) involved in the steroid-induced decrease of androgen production in immature African catfish testes that was observed in previous studies. Juvenile animals were implanted with Silastic pellets containing different 11-oxygenated androgens (11-ketotestosterone, KT; 11 beta-hydroxyandrostenedione, OHA; 11-ketoandrostenedione, KA), testosterone (T) or estradiol-17 beta (E2). Control groups received steroid-free pellets. Two weeks later, testis tissue fragments were either incubated with increasing concentrations of catfish luteinizing hormone (LH), or incubated with [3H]-pregnenolone ([3H]-P5) or [3H]-androstenedione ([3H]-A). Tissue fragments were also prepared for the quantitative assessment of Leydig cell morphology. Most of the parameters studied were not affected significantly by implantation of E2. Implantation of all androgens inhibited both the basal and the LH-stimulated androgen secretory capacity in vitro. This was associated with a reduced size of the Leydig cells and loss of half of their mitochondria. The studies on the metabolism of tritiated steroid hormones indicated that steroidogenic steps prior to 11 beta-hydroxylation, probably C17-20 lyase activity, were affected by all androgens. Although the effects of 11-oxygenated androgens and T on Leydig cells were mostly similar, previous work showed that only the 11-oxygenated androgens stimulated spermatogenesis, suggesting that distinct mechanisms of action are used by 11-oxygenated androgens and T. These mechanisms, however, seem to merge on the same target(s) to impair Leydig cell androgen production. Such a negative feedback mechanism may be of relevance in the context of the decline in androgen secretion per milligram testis tissue that accompanies the first wave of spermatogenesis in pubertal African catfish.     

Immunization against 5alpha-androstane-3alpha,17beta-diol affects ovarian folliculogenesis in Merino ewes

The 5alpha-reduced androgens have been implicated as antagonists of follicular development. In this experiment, we examined the effect of active immunization against 5alpha-reduced androgen on follicular development in ewes. During the breeding season, cyclic Merino ewes were either actively immunized three times against 5alpha-androstane-3alpha,17beta-diol (3alpha-diol) or served as controls. Six to nine weeks after the last immunization, they were treated with PGF(2alpha) analog (PG, 125mg cloprostenol i.m.) and luteolysis was induced. Fourteen days after the PG treatment, the ewes were either killed (mid-luteal phase) or treated a second time with PG and killed 24h later (early follicular phase). At slaughter, blood samples were collected and ovaries recovered. All CL and follicles larger than 2mm were dissected and their size and appearance were recorded. Follicular fluid was collected and concentrations of estradiol-17beta (E(2)), progesterone (P), androstenedione (A(4)), testosterone (T), dihydrotestosterone (DHT), 5alpha-androstane-3alpha-ol,17beta-one (androsterone: 3alpha-ol) and 3alpha-diol were determined by RIA. Immunization induced antibodies primarily to DHT and its 5alpha-reduced substrates 3alpha-diol and 3alpha-ol but not to E(2), P, A(4) or T. Immunization increased ovulation rate, size of ovulatory follicles and weight of CL. Immunization appeared to increase ovulation rate by decreasing the incidence of atresia in large preovulatory follicles. Regardless of their physiological status follicles contained only low levels of DHT; 3alpha-ol and 3alpha-diol were not detected in most follicles. Immunization did not appear to affect levels of DHT or other steroids in the follicular fluid. In conclusion, the induction of antibodies to 5alpha-reduced androgens increases ovulation rate by enhancing follicular viability during the preovulatory period in ewes. However, this effect is not brought about by the direct immune-neutralization of DHT or its 5alpha-reduced substrates 3alpha-ol and 3alpha-diol at the ovarian level.     

The activity of 3 alpha- and 3 beta-hydroxysteroid dehydrogenases and 5 alpha-reductase, together with androgen levels in male rat pituitary during sexual maturation

In all subcellular pituitary fractions, 3 alpha-hydroxysteroid dehydrogenase (3 alpha-ol dehydrogenase) activity is high (1 to 3 pmol/mg/h) with NADH or NADPH as cofactor, and 3 beta-hydroxysteroid dehydrogenase (3 beta-ol dehydrogenase) activity much lower. The highest activity of the latter (0.15 pmol/mg/h) is detected in cytosol with NADH as cofactor. During sexual maturation, cytosolic (NADH-dependent) 3 alpha- and 3 beta-ol dehydrogenase activities remain constant, whereas the 5 alpha-reductase activity is maximum at 37 days. The levels of different pituitary androgens were evaluated by radioimmunoassay. At 28 days, testosterone level is 4 ng/g of tissue, then after 42 days the level remains between 4.5 and 6 ng/g at a level higher than the DHT level. In all cases during the maturation of the rat, the different 5 alpha-reduced androgens are in the same ratio: DHT greater than 3 alpha-diol greater than 3 beta-diol, and the sum of these three 5 alpha-reduced androgens decreases between the 28th and the 90th day.     

Inhibin activity of the organs of the male reproductive system in rats treated with dihydrotestosterone

The content of protein hormone, inhibin, in the rat testis and prostate has been studied on preadolescent female mice. Both organs were characterized by a certain inhibin activity, it being higher in the prostate. A single injection of 25 mu kg dihydrotestosterone (DHT) to rats has been followed by the increase in testicular and prostate mass, elevation of 17 alpha-hydroxyprogesterone and testosterone levels in peripheral blood, and a slight rise in inhibin testicular activity, with the lack of these changes in the prostate. The detection of inhibin in the prostate confirms possible direct link of the organ with the pituitary body. DHT effect on spermatogenesis has been but insignificantly related to FSH depression.     

Effect of testosterone on testicular steroidogenesis in the hypogonadal (hpg) mouse

Previous studies have shown that androgens have direct inhibitory effects on steroidogenesis in active Leydig cells. It is not clear what effect androgens have on inactive Leydig cell either through direct action on the cell itself or indirectly through stimulation of Sertoli cell activity. The hpg mouse has undetectable levels of circulating gonadotrophins and the gonads fail to develop post-natally. The effect of androgen treatment on testicular steroidogenesis and morphology was examined in these animals. Treatment with testosterone propionate for two weeks significantly increased testicular and seminal vesicle weight. Seminiferous tubules showed marked development in androgen-treated animals, indicating increased Sertoli cell activity, but the abnormal Leydig cell morphology of the hpg testis was unchanged. Androgen production per testis in vitro was low in control hpg animals and remained unaffected by treatment with androgen. Similarly, the pattern of [3H]pregnenolone metabolism was not significantly affected by androgen treatment. The androgen content of the testis was higher in androgen-treated animals but this could be accounted for by uptake of administered steroid from the circulation. It is concluded that androgens have no direct trophic effect on Leydig cells and that stimulation of Sertoli cell activity is not, in itself, sufficient to affect Leydig cell function.     

Immunolocalization of androgen receptors in testicular cells of prepubertal and pubertal pigs

In the testis, androgen receptors are known to mediate autocrine and paracrine effects of androgens on Leydig cell function and spermatogenesis. The pig presents some unusual features with regard to the synthesis of testosterone and estrogens in the male gonads. In testes from prepubertal males, testosterone level was lower than in testes from adult boars, while estrogen secretion was relatively high and comparable to that of mature porcine gonad. Immunolocalization of androgen receptors and intensity of immunohistochemical staining was age-dependent. In testis sections from adult boars, androgen receptors were found in nuclei of all somatic cells such as Leydig cells, Sertoli cells, and peritubular-myoid cells, whereas in sections from immature pigs only in the Leydig cell cytoplasm showed positive immunoreaction for androgen receptors. In control tissue sections incubated with omission of the primary antibody, no positive staining was observed. Detection of the androgen receptors in testicular cells of the pig is important for understanding of their central role in mediating androgen action.