Effect of intratesticular administration of TRH or anti-TRH antiserum on function of rat testis

The effect of intratesticular administration of thyrotropin-releasing hormone (TRH) and anti-TRH antiserum on steroidogenesis was studied in immature and adult rats. In 9-day-old animals local administration of the neuropeptide resulted in an increase in basal testosterone secretion in vitro. Similar treatment of 15-day-old rats suppressed hCG-stimulated testosterone secretion with no change in basal testosterone production. In both immature groups the treatment did not affect serum testosterone concentration. By contrast, in adults TRH decreased serum testosterone level, but did not influence basal and hCG-stimulated testosterone secretion. Both in immature and adult rats, the changes in steroidogenesis were evident 1 hour posttreatment. Five days after the administration of anti-TRH antiserum into the remaining testis of immature rats subjected to hemicastration just prior to the antiserum treatment, the alterations in steroidogenesis were opposite to those detected after treatment with TRH. In 9-day-old rats the antiserum suppressed steroidogenesis, while in 15-day-old animals it stimulated testosterone secretion. The results suggest that testicular TRH might exert a local action on testicular steroidogenesis, and the effect is age-dependent.     

Hemicastration causes and testosterone prevents enhanced uptake of [3H] thymidine by Sertoli cells in testes of immature rats

Rat pups were hemicastrated and uptake of [3H] thymidine by Sertoli cells in the remaining testis was compared to that in testes of sham-operated pups at intervals of from 8 h to 21 days after surgery. Labeled thymidine was administered subcutaneously 2 h before sacrifice. Testes were processed for light microscope autoradiography and the percent of Sertoli cell nuclei that had incorporated [3H] thymidine was determined by scoring nuclei in tissue sections as labeled or unlabeled. The percentage of cells labeled was increased in hemicastrates over intact controls by 8 h after surgery and testicular hypertrophy became apparent in hemicastrates by the following day. Labeling of Sertoli cells in hemicastrates remained elevated for 4 days and then returned to normal. When plasma levels of gonadotropins were measured in both groups 4 days after surgery, follicle-stimulating hormone (FSH) was found to be more than twice normal in hemicastrates while luteinizing hormone (LH) was unchanged. The effect of testosterone on the response of Sertoli cells to hemicastration was also examined. In hemicastrates, 2 days of androgen therapy depressed, and an additional 2 days abolished, the proliferative response of the Sertoli cells. Our findings suggest that increased proliferation of Sertoli cells within the remaining testis is involved in the enlargement of the testis that follows hemicastration. They also imply that prevention of compensatory hypertrophy by testosterone involves interference with this response of Sertoli cells in some way. Finally, our data implicate FSH in control of Sertoli cell proliferation in vivo in immature rats.     

Changes in gonadotropin secretion following complete or hemicastration in the adult rat.

The effect of sham castration, hemicastration or complete castration on gonadotropin and testosterone secretion was studied in adult male rats. Untreated control rats were autopsied 1, 10, 20, 30 and 40 days following assignment to treatment groups. Sham-castrated controls were autopsied 1, 2 and 3 days after surgery. Complete and hemicastrates were autopsied 1, 2, 3, 10, 20, 30 and 40 days after surgery. Serum levels of both FSH and LH were elevated by 24 h postcastration and the levels of both gonadotropins continued to rise throughout the course of the experiment. Serum levels of LH rose following hemicastration and remained above control values through day 30. Serum FSH levels were not significantly affected by hemicastration. Compensatory testicular hypertrophy was not observed in hemicastrated rats.     

Effect of specific FSH or LH deprivation on testicular function of the adult rat.

While the need for FSH in initiating spermatogenesis in the immature rat is well accepted, its requirement for maintenance of spermatogenesis in adulthood is questioned. In the current study, using gonadotropin antisera to neutralize specifically either endogenous FSH or LH, we have investigated the effect of either FSH or LH deprivation for a 10-day period on (i) testicular macromolecular synthesis in vitro, (ii) the activities of testicular germ cell specific LDH-X and hyaluronidase enzymes, and finally (iii) on the concentration of sulphated glycoprotein (SGP-2), one of the Sertoli cell marker proteins. Both immature (35-day-old) and adult (100-day-old) rats have been used in this study. Since LH deprivation leads to a near total blockade of testosterone production, the ability of exogenous testosterone supplementation to override the effects of LH deficiency has also been evaluated. Deprivation of either of the gonadotropins significantly affected in vitro RNA and protein synthesis by both testicular minces as well as single cell preparations. Fractionation of dispersed testicular cells preincubated with labelled precursors of RNA and protein on Percoll density gradient revealed that FSH deprivation affected specifically the rate of RNA and protein synthesis of germ cell and not Leydig cell fraction. LH but not FSH deprivation inhibited [3H]thymidine incorporation into DNA. The inhibitory effect of LH could mostly be overriden by testosterone supplementation. LDH-X and hyaluronidase activities of testicular homogenates of adult rats showed significant reduction (50%; P less than .05) following either FSH or LH deprivation. Again testosterone supplementation was able to reverse the LH inhibitory effect.(ABSTRACT TRUNCATED AT 250 WORDS)     

Photoperiodic regulation of compensatory testicular hypertrophy in hamsters

In mammals, removal of one testis results in compensatory testicular hypertrophy (CTH) of the remaining gonad. Although CTH is ubiquitous among juveniles of many species, laboratory rats, laboratory mice, and humans unilaterally castrated in adulthood fail to display CTH. We documented CTH in pre- and postpubertally hemi-castrated Syrian and Siberian hamsters and tested whether day length affects CTH in juvenile and adult Siberian hamsters. Robust CTH was evident in long-day hemi-castrates of both species and was preceded by increased serum FSH concentrations in juvenile Siberian hamsters. In sharp contrast, CTH was undetectable in short-day hemi-castrated Siberian hamsters for several months and only made its appearance with the development of neuroendocrine refractoriness to short day lengths; serum FSH concentrations of juveniles also did not increase above sham-castrate values until the onset of refractoriness. Long-day hemi-castrated Siberian hamsters with hypertrophied testes underwent complete gonadal regression after transfer to short days, albeit at a reduced rate for the first 3 weeks of treatment. Blood testosterone concentrations of adult hamsters did not differ between long-day hemicastrates and sham-castrates 9-12 weeks after surgery. We conclude that CTH is suppressed by short day lengths in Siberian hamsters at all ages and stages of reproductive development; in short day lengths, but not long day lengths, the remaining testis produces sufficient negative feedback inhibition to restrain FSH hypersecretion and prevent CTH.     

Direct biphasic modulation of gonadotropin-stimulated testicular androgen biosynthesis by prolactin

Prolactin (PRL) exerts both stimulatory and inhibitory effects upon testicular steroidogenesis in vivo. The direct effects of PRL on biosynthesis of testicular androgen were studied in primary cultures of testicular cells obtained from adult, hypophysectomized or neonatal, intact rats. In cells from adult animals, treatment with human chorionic gonadotropin (hCG) (10 ng/ml) significantly increased testosterone and progesterone production relative to their respective controls. In contrast, neither steroid was increased by treatment with rat PRL (rPRL) or ovine PRL (oPRL) alone. Upon addition of 0.1-3 ng/ml of either rPRL or oPRL to the hCG-treated cultures, testosterone production was progressively increased up to a maximum of 70% greater than with hCG alone. However, when PRL exceeded 3 ng/ml, the testosterone response began to decline and was 39 or 24% less than from cells treated with hCG alone at 300 ng/ml of rPRL or oPRL, respectively. A similar biphasic response pattern was observed in cells from neonatal animals. In contrast to the biphasic effect of PRL on production of androgen, PRL treatment enhanced hCG-stimulated production of progesterone in a dose-related manner without exerting an inhibitory effect. At 3 and 300 ng/ml, rPRL augmented hCG action by 2.5- and 8-fold, respectively. Similarly, in the presence of inhibitors of pregnenolone metabolism, rPRL also enhanced hCG-stimulated production of pregnenolone. Quantitation of steroid intermediates in the testosterone biosynthetic pathway revealed that the stimulatory effect of 3 ng/ml rPRL on testosterone production was associated with 1.3- and 2.8-fold increases in accumulation of androstenedione and 17 alpha-hydroxyprogesterone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Compensatory testosterone secretion in unilaterally orchidectomized rats

Blood and testis samples were taken from rats 3 weeks after unilateral (sinistral) orchidectomy or sham operation to study the regulation of circulating testosterone. Although plasma testosterone concentrations did not differ, the concentration of testicular testosterone was twofold greater in orchidectomized rats than in sham operated controls. At autopsy, weights of right testes as well as Leydig cell number of orchidectomized and control rats were similar. These observations indicate that, after unilateral orchidectomy, compensatory hypersecretion is not related to compensatory testicular hypertrophy.     

Effect of uni- and bilateral cryptorchidism on testicular inhibin and testosterone secretion in rats

The effect of uni- and bilateral cryptorchidism on testicular inhibin and testosterone secretion and their relationships to gonadotropins were studied in rats. Mature Wistar male rats weighing approximately 300 g were made either uni- or bilaterally cryptorchid. Testicular inhibin and testosterone content and plasma levels of LH and FSH were examined 2 weeks later. A similar remarkable decrease in testicular inhibin content was found in uni- and bilaterally cryptorchid testes. On the other hand, the testicular testosterone content was significantly decreased only in unilaterally cryptorchid testis with an inverse increase in the contralateral testis. Plasma testosterone levels were normal and plasma LH and FSH increased significantly in both of the cryptorchid groups. These results showed that cryptorchidism impairs both Sertoli and Leydig cell functions. While testosterone production was compensated by increased LH for 2 weeks, neither inhibin secretion nor storage changed in cryptorchid or contralateral testes during the same period.     

25-hydroxycholesterol is produced by testicular macrophages during the early postnatal period and influences differentiation of Leydig cells in vitro

Leydig cells develop inappropriately in animals lacking testicular macrophages. We have recently found that macrophages from adult animals produce 25-hydroxycholesterol, an oxysterol involved in the differentiation of hepatocytes and keratinocytes. Therefore, we hypothesized that testicular macrophages also produce 25-hydroxycholesterol during the early postnatal period and that this oxysterol plays a role in the differentiation of Leydig cells. We assessed the production of 25-hydroxycholesterol and 25-hydroxylase mRNA by cultured testicular macrophages from rats at 10, 20, and 40 days of age. We also tested the long-term effects of 25-hydroxycholesterol on basal and LH-stimulated testosterone production, and 3beta-hydroxysteroid dehydrogenase activity as end points of Leydig cell differentiation in vitro. We found that testicular macrophages from animals at all ages produced both 25-hydroxycholesterol and 25-hydroxylase mRNA, with macrophages from 10-day-old animals having the highest steady-state levels of message. We also found that chronic exposure of Leydig cells to 25-hydroxycholesterol increased basal production of testosterone but decreased LH-stimulated steroidogenesis at all ages. Finally, 25-hydroxycholesterol increased 3beta-hydroxysteroid dehydrogenase activity in both progenitor and immature Leydig cells. These findings support the hypothesis that testicular macrophages play an important role in the differentiation of Leydig cells through the secretion of 25-hydroxycholesterol.     

Intratesticular injection of [D-Met2-Pro5]enkephalinamide suppresses testosterone secretion of the testis of immature rat

The possible role of enkephalin in the local control of testicular function was studied in neonatal rats. 5- and 10-day old hemicastrated rats were treated intratesticularly with an enkephalin analog [D-Met2-Pro5]enkephalinamide. In 5-day-old rats local injection of different doses (0.1-0.3 micrograms/testis) of the peptide suppressed basal testosterone secretion in vitro in a dose-dependent manner 2 h posttreatment. Intratesticular administration of naloxone prior to enkephalin treatment prevented the decrease in basal testosterone production induced by the opioid agonist. In 10-day-old animals intratesticular injection of 1.0 and 3.0 micrograms/testis of enkephalinamide reduced serum testosterone concentration and basal testosterone secretion in vitro. Systemic injection of the peptide produced no change in steroidogenesis. These results suggest that enkephalins might be among the intratesticular factors regulating Leydig cell functions.     

Effect of estradiol benzoate on hormonal profile and steroidogenic organs of immature and adult male rats

The effects of estradiol benzoate (E2B) at a dose of 50 micrograms/day/rat for 15 days were investigated on ascorbate metabolism, steroidogenesis, protein, cholesterol levels of testis, adrenal and serum testosterone, LH and FSH profiles of rats. The data revealed that E2B manifested a direct effect on testicular and probably adrenal steroidogenesis. But serum gonadotrophin levels remained unchanged. The treatment also brought about a decline in ascorbate metabolism, activities of 3 beta and 17 beta hydroxysteroid dehydrogenases and alteration in protein level concomitant with the accumulation of cholesterol in both steroidogenic organs. Estrogen treatment was more effective in adult male rats than in the immature ones.     

The adrenal gland and progesterone stimulates testicular steroidogenesis in the rat in vivo

Administration of pharmacological doses of glucocorticoid to male rats in vivo suppresses adrenal steroidogenesis and inhibits testicular steroidogenesis by inhibiting the anterior pituitary secretion of LH. In contrast, administration of ACTH to these pharmacologically-suppressed rats stimulates the adrenal secretion of progesterone and testicular steroidogenesis. The mechanism by which ACTH increases testicular steroidogenesis is dependent on the presence of the adrenal gland and is reproduced by the administration of progesterone. The conclusion from these data is that the adrenal gland has an important role in generating external signals that modulate the hypothalamic-pituitary-gonadal axis in male rats. The adrenal secretion of glucocorticoid acts as a negative signal to testicular steroidogenesis whereas progesterone acts as a positive signal. The adrenal secretion of progesterone and its conversion to testosterone by steroidogenic enzymes in the cytoplasm of the Leydig cell may provide an alternative pathway for testosterone biosynthesis and may account for the increased plasma testosterone levels during the acute phase of stress and mating.     

Compensatory testicular hypertrophy in the lizard Anolis carolinensis

In reproductively responsive, male Anolis carolinensis undergoing artificially induced testicular recrudescence, unilateral orchidectomy of the left testis produced compensatory hypertrophy of the remaining testis. Testosterone inhibited this compensatory testicular hypertrophy on a weight basis, but did not reduce the rate of spermatogenic development. These results suggest that there is a mechanism of testosterone feedback in Anolis carolinensis that controls gonadotropin secretion during the recrudescent phase. In reproductively thermorefractory lizards, unilateral orchidectomy had no effect on the remaining testis. Administration of exogenous follicle-stimulating hormone to refractory animals increased testicular weight and stage of spermatogenic development. Sensitivity to gonadotropin, as well as failure of unilateral orchidectomy to produce compensatory hypertrophy in refractory male anoles, suggests that the control of the refractory period in A. carolinensis results from physiological mechanisms in the pituitary gland or brain rather than in the testis.     

Influence of prenatal stress on steroidogenesis in gonads of blue foxes

Handling is a source of stress for farm bred blue foxes. The influence of handling during the late gestational period was investigated in 10-day-old male and female blue foxes. Testosterone and estradiol were measured by RIA in the plasma, gonadal homogenates andin vitro incubates, from blue foxes of both sexes. The gonads were incubatedin vitro without or with human chorionic gonadotropin. In cubs of both sexes, the gonad weights and ovarian estradiol production were decreased by stress. The testicular testosterone and ovarian estradiol contents were increased in prenatally stressed cubs as compared to the controls. The testicular content and baselinein vitro production of testosterone were not affected by prenatal stress, but the testicular response to human chorionic gonadotropin was higher in the stressed group. This study suggests that prenatal stress induced by handling pregnant vixens may influence gonadal steroidogenesis and that this effect was more pronounced in female cubs.     

Rôle du peptide vasoactif intestinal (VIP) dans la stéroïdogenèse et le vieillissement testiculaire

VIP (vasoactive intestinal peptide) neuropeptide has long been considered to be putative regulator of testicular functions.In vitro evidence suggests that VIP could play an important role in testosterone biosynthesis. However, the endogenous role of VIP on testicular functions remained to be demonstrated. In C57BL/6 mice exhibiting complete disruption of the VIP gene, the authors observed that male fertility remained intact but serum testosterone levels were lower than those of WT littermates. At the age of 4 months, this phenotype was accompanied by reduced steroidogenesis due to inhibition of the expression of StAR (steroidogenic acute regulatory protein) and 3ßHSD (3ß-hydroxysteroid dehydrogenase) in the testis. In addition, serum levels of FSH (Follicle-stimulating hormone) but not LH (Luteinizing hormone) were reduced in young KO males. Testicular anatomy also revealed a subtle but significantly higher percentage of degenerated seminiferous tubules in 4-month-old VIP-/-animals compared to WT. In aging animals (15 months old), control males showed typical testicular aging including severe degeneration of seminiferous tubules, a dramatic decrease in serum testosterone levels and a reduction in StAR and 3ß-HSD gene expression. In age-matched VIP-/-males, serum levels of testosterone and steroidogenic enzymes were still very low. Interestingly, in contrast with young mice, testicular degeneration at 15 months was significantly less severe marked in VIP-/-mice than in WT mice. Altogether, these results suggest that: 1) VIP is an important factor for regulating testosterone biosynthesis and FSH secretion and 2) VIP regulates testicular aging.     

Effects of diallyl sulfide and zinc on testicular steroidogenesis in cadmium-treated male rats

Cadmium (Cd) is one of the environmental pollutants that affect various tissues and organs including testis. Harmful effect of cadmium on testis is known to be germ cell degeneration and impairment of testicular steroidogenesis. In the present study, the effect of diallyl sulfide (DAS), a sulfur-containing volatile compound present in garlic, and zinc (Zn) was investigated on cadmium-induced testicular toxicity in rats. Male adult Wistar rats treated with cadmium (2.5 mg/kg body wt, five times a week for 4 weeks) showed decreased body weight, paired testicular weight, relative testicular weight, serum testosterone, luteinizing hormone, follicle-stimulating hormone, and testicular total antioxidant capacity (TAC) and protein levels. Testicular steroidogenic enzymes, such as 3beta-hydroxysteroid dehydrogenase (3beta-HSD) and 17beta-hydroxysteroid dehydrogenase (17beta-HSD), and marker enzymes, such as sorbitol dehydrogenase (SDH), lactate dehydrogenase (LDH), acid phosphatase (ACP), alkaline phosphatase (ALP), and glucose-6-phosphate dehydrogenase (G6PD), showed a significant decrease in activities whereas that of gamma-glutamyl transferase was significantly increased after cadmium exposure. The results have revealed that concurrent treatment with DAS or zinc restored key steroidogenic enzymes, SDH, LDH, and G6PD and increased testicular weight significantly. DAS restored the TAC level and increased testosterone level and relative testicular weight significantly. Zinc restored testicular protein level and body weight. It can be concluded that cadmium causes testicular toxicity and inhibits androgen production in adult male rats probably by affecting pituitary gonadotrophins and that concurrent administration of DAS or zinc provides protection against cadmium-induced testicular toxicity.     

Vascular effects of pituitary adenylate cyclase activating peptide: a comparison with vasoactive intestinal peptide

The effects of pituitary adenylate cyclase activating peptide (PACAP) on the blood pressure of the anesthetized rat and on the isolated rat tail artery were investigated and compared to those of vasoactive intestinal peptide (VIP). PACAP-38, PACAP-27 and the C-terminal fragment 16–38 caused a dose-dependent decrease in the systemic blood pressure. PACAP-27 and PACAP-38 were equipotent with VIP. The C-terminal fragment 16–38 was much less potent than VIP. The duration of action was longer for equimolar doses of PACAP-38 and PACAP-27 than for VIP and much longer than for PACAP 16–38. PACAP-27 and the phosphodiesterase inhibitor rolipram given in combination produced additive vasodepressive responses. In vitro PACAP-38, PACAP-27, VIP and PACAP 16–38 relaxed the phenylephrine-precontracted rat tail artery. PACAP-38 and PACAP-27 were equipotent with VIP. PACAP 16–38 was much less potent than the full-length peptides. The responses were resistant to atropine and propranolol. Addition of VIP 1 μM to preparations exposed to 1 μM PACAP-38 or -27 did not produce a further relaxation. VIP-like peptides, PACAP in particular, are known to activate adenylate cyclase and to elevate the plasma cyclic AMP (cAMP) concentration. cAMP was found to be a potent vasodepressor in the anaesthetized rat and a potent vasodilator of precontracted blood vessels. On the basis of these results it cannot be excluded that the vascular effects of PACAP are secondary to the effect of elevated levels of extracellular cAMP.     

Compensatory ovarian hypertrophy in the long-term hemicastrate rat: size distribution of growing and atretic follicles

In the intact rat, on estrus, the follicle-stimulating hormone (FSH) surge recruits nearly twice the correct number of follicles for ovulation, then, on metestrus, the excess follicles undergo atresia. In contrast, in the long-term hemicastrate rat, the FSH surge recruits fewer antral follicles on estrus, but there is little atresia on metestrus. To determine if fewer follicles are recruited by the FSH surge of long-term hemicastrates because the pool of follicles capable of responding to the FSH is smaller than in intact rats, preantral, antral, atretic, and healthy follicles were counted in ovaries of rats killed on each day of the estrous cycle. In general, there were only half as many healthy preantral follicles per rat in hemicastrates compared with intacts. There were an equal number of large antral follicles per rat in hemicastrates compared with intacts. Thus, compensatory hypertrophy did not extend to preantral follicles but was evident in large preovulatory follicles. These results suggest that fewer follicles are recruited on estrus in hemicastrate rats because fewer follicles are at the appropriate stage of development to respond to the FSH surge.     

Anorexigenic effects of pituitary adenylate cyclase-activating polypeptide and vasoactive intestinal peptide in the chick brain are mediated by corticotrophin-releasing factor

Intracerebroventricular (ICV) injection of pituitary adenylate cyclase-activating polypeptide-38 (PACAP) or vasoactive intestinal peptide (VIP) inhibits feeding in chicks. However, the underlying anorexigenic mechanism(s) has not yet been investigated. The present study investigated whether these peptides influence the activity of corticotrophin-releasing factor (CRF) neural pathways in the brain of chicks. Firstly, we found that ICV injections of PACAP and VIP increased plasma corticosterone concentrations. The corticosterone-releasing effect of PACAP was completely attenuated by co-injection of astressin, a CRF receptor antagonist, but this effect was only partial for VIP. These results demonstrated that CRF neurons mediate the actions of PACAP and, to a lesser extent, VIP, and suggest that the signaling mechanisms differ between the two peptides. This difference may arise from the two peptides interacting with different receptors because the corticosterone-releasing effect of PACAP, but not VIP, was completely attenuated by co-injection of PACAP (6–38), a PACAP receptor antagonist. Finally, we examined the effect of ICV co-injection of astressin on the anorexigenic effects of PACAP and VIP and found that the effects of both peptides were attenuated by astressin. Overall, the present study suggests that the anorexigenic effects of PACAP and VIP are mediated by the activation of CRF neurons.     

Involvement of a direct neural mechanism in the control of gonadal functions

Much time has been devoted to study of the hypothalamo-hypophyseal-gonadal axis. However, there is now evidence of a complementary control mechanism for the gonads, namely a pituitary-independent, direct neural link that exists between the central nervous system and the gonads. We investigated whether mediobasal temporal lobe structures could control gonadal functions by a purely neural mechanism or whether they acted through the classical hypothalamo-hypophyseal system. Right- or left-sided deafferentation of the temporal lobe was combined with right- or left-sided hemicastration in adult and prepubertal male and female rats. In adult females right-sided deafferentation, regardless of the side of hemiovariectomy significantly reduced the extent of compensatory ovarian hypertrophy. Similar lesions on the left side did not interfere with the usual compensatory ovarian growth. This difference in compensatory hypertrophy between right- and left-sided lesioned rats was observed even in the face of a significant drop in serum LH concentrations in both groups. In pre- and postpubertal females temporal lobe lesion in either side was unable to alter compensatory hypertrophy or serum LH or progesterone concentrations. In adult male rats only left-sided deafferentation combined with left orchidectomy resulted in decreased T production, while in prepubertal male rats, only right-sided brain surgery plus left orchidectomy resulted in a significant decrease in basal testosterone secretion of the remaining testis. These findings indicate that mediobasal temporolimbic structures are involved in the neural control of gonadal functions. It appears that this lateralized mechanism is age- and sex-dependent.