The effect of spermatogenic disruption on the ability of testicular fluid to stimulate androgen production by normal Leydig cells

Reports from this and other laboratories have concluded that unilateral disruption of spermatogenesis induces a predominantly ipsilateral increase in the responsiveness of Leydig cells to stimulation with luteinizing hormone (LH) and have suggested that if such effects were mediated by locally produced hormones then such "factors" should be detectable in testicular interstitial fluid. We sought to demonstrate such factors in testicular fluid from gonads subjected to a variety of treatments that disrupt gametogenesis. Fluid (TF) was drained from testes of adult rats that had been sham treated, irradiated, or treated with busulfan in utero, made unilaterally or bilaterally cryptorchid, or were unilaterally or bilaterally efferent-duct-ligated. Leydig cells obtained from normal rats basally produced 8 +/- 1 ng androgen/10(6) Leydig cells/2 h and, when maximally stimulated with LH, produced 66 +/- 3 ng. The addition of the various TFs to the incubations significantly increased both basal and LH-stimulated androgen production. TF from lesioned testes was more effective in increasing androgen production than TF from control rats. Unilateral lesions caused an increase in the ability of TF from the disrupted testes to increase the androgen production by normal Leydig cells, as compared to TF from contralateral testes. Thus, locally produced "factor(s)" do appear to modify Leydig cell function. Additional studies using TF from control and bilaterally cryptorchid animals suggest that the "factor' in TF is heat-labile; has a molecular size between bovine serum albumin and ovalbumin; exerts a portion of its action independently of cAMP formation; and does not appear to be LH, follicle-stimulating hormone, prolactin, or gonadotropin-releasing hormone.     

Effect of prenatal treatment with busulfan on the hypothalamo-pituitary axis, genital tract and testicular histology of prepubertal male rats

Female Wistar rats were treated with busulfan or with solvent on Day 20 of pregnancy. Thirty male offspring of each group were killed at 38 days of age. In busulfan-treated rats, compared to controls, hypothalamic LH-RH content was decreased by 52%, whereas pituitary LH and FSH concentrations were increased by 60 and 43% respectively. Plasma LH and FSH were increased by 112 and 275% respectively. Prolactin concentrations were not changed, but plasma testosterone concentration was decreased by 48%. The total number of Leydig cells per testis was decreased by 52%, and LH binding sites per testis were decreased by 70%. The total number of Sertoli cells was decreased by 44%, while FSH binding sites per testis were decreased by 62%. Spermatogenesis was practically absent after prenatal exposure to busulfan. These data demonstrate that on Day 20 of pregnancy all the dividing cells in the fetal testes were depleted by an antimitotic treatment. The stimulation of the hypothalamo-pituitary axis could have been partly induced by the decrease in testosterone production, and by the aplasia of germ cells involving modifications of the remaining Sertoli and Leydig cells.     

A comparison of Leydig cell function after unilateral and bilateral cryptorchidism and efferent-duct-ligation

Surgical induction of cryptorchidism or ligation of the efferent ducts disrupts spermatogenesis. The response of Leydig cells to disrupted gametogenesis was studied in vitro in tissue and collagenase dispersed Leydig cells obtained from the testes of rats that were made unilaterally or bilaterally cryptorchid or had been efferent-duct-ligated. Four wks after surgery, androgen secretion per mg of tissue or per Leydig cell in response to maximal luteinizing hormone (LH) stimulation was greater in tissue from damaged than from sham-operated testes. It was concluded that disruption of spermatogenesis resulted in Leydig cells that were hyperresponsive to LH stimulation in vitro. Unilateral lesions produced different responsiveness of Leydig cells from the testes ipsilateral and contralateral to the lesion, supporting the hypothesis that intragonadal modulation of Leydig cells function occurs when the function of seminiferous tubules is impaired. Stimulated androgen production of Leydig cells from the contralateral nonligated testis did not differ from that of the sham-operated controls. With unilateral cryptorchidism, which is accompanied by an increase in the temperature of the operated testis, Leydig cells from the scrotal testis were also hyperresponsive compared to those from sham-operated controls. This suggests a possible intergonadal influence of aspermatogenesis caused by cryptorchidism.     

Effect of in vitro administration of LH, prolactin separately, and LH and prolactin in mixture on cultured Leydig cells from mouse testes: II. Age-related alterations of androgen secretion

The effect of gonadotropic hormones on androgen level in media of cultured Leydig cells isolated from mouse testes of various age was investigated. Changes of androgen level were connected with the age of mice. The highest secretory level of androgen was found in cultures of Leydig cells from mature 60 day old animals, which then decreased in 7 month old mice. Stimulating effect of LH and PRL on hormonal secretion by cultured Leydig cells was observed.     

Testicular phenotype in luteinizing hormone receptor knockout animals and the effect of testosterone replacement therapy

The LH receptor knockout model, developed in our laboratory, was used in determining what FSH alone can do in the absence of LH signaling and whether any of the testicular LH actions are not mediated by androgens. The results revealed that null animals contained smaller seminiferous tubules, which contained the same number of Sertoli cells, spermatogonia, and early spermatocytes as wild-type siblings. The number of late spermatocytes, on the other hand, was moderately decreased, the number of round spermatids was dramatically decreased, and elongated spermatids were completely absent. These changes appear to be due to an increase in apoptosis in spermatocytes. While the number of Leydig cells progressively increased from birth to 60 days of age in wild-type animals, they remained unchanged in null animals. Consequently, 60-day-old null animals contained only a few Leydig cells of fetal type. The age-dependent increase in testicular macrophages lagged behind in null animals compared with wild-type siblings. Orchidopexy indicated that -/- testicular phenotype was not due to abdominal location. Rather, it was mostly due to androgen deficiency, as 21-day testosterone replacement therapy stimulated the growth of seminiferous tubules, decreased apoptosis, and increased the number of late spermatocytes and round spermatids and their subsequent differentiation into mature sperm. The therapy, however, failed to restore adult-type Leydig cells and testicular macrophage numbers to the wild-type levels. In summary, our data support the concept that FSH signaling alone can maintain the proliferation and development of Sertoli cells, spermatogonia, and early spermatocytes. LH actions mediated by testosterone are required for completion of spermatogenesis, and finally, androgen-independent actions of LH are required for the formation of adult-type Leydig cells and recruitment of macrophages into the testes.     

Developmental change in the ability of estradiol to suppress testosterone secretion by the testis of the rat

An intratesticular site of action has been proposed for the ability of estradiol (E2) to suppress testosterone secretion. Because testicular testosterone and E2 secretion as well as E2 receptors change during development, a physiologic role for E2 is possible. The present experiments compared the testes from 12-day-old and adult rats for the capacity of in vivo estradiol treatment to change in vitro androgen secretion in response to luteinizing hormone (LH) and dibutyryl cyclic AMP (Bt2cAMP). After 5 days in vivo treatment, in vitro responsiveness was estimated by radioimmunoassay (RIA) measurement of androgen secretion elicited by various doses of NIAMDD-LH-24 or 1.0 mM Bt2cAMP. Five days of E2 alone (500 ng/g BW s.c. once daily) markedly inhibited basal, LH-stimulated and Bt2cAMP-stimulated androgen production at both ages. Similar treatment of infant rats with LH (100 ng NIAMDD-LH-24/g BW) caused an increase in basal and LH-stimulated androgen secretion in vitro, but had no effect on the response to Bt2cAMP. The same pretreatment of adults with LH had no effect on basal, but inhibited LH- or Bt2cAMP-stimulated androgen secretion. Combined treatment of infants with E2 and LH for 5 days had no effect on basal or maximally stimulated androgen production; the in vitro response to submaximal stimulation with LH was significantly inhibited. Combined E2/LH treatment of adults significantly decreased the basal production of androgens and the response to LH or Bt2cAMP. These results suggest a major difference between the response to E2 of the Leydig cells from the rats of the two ages tested.(ABSTRACT TRUNCATED AT 250 WORDS)     

Changes in testicular hCG binding and Leydig cell function in rats throughout life

The age dependence of Leydig cell function was investigated in rats from prepuberty (15 days) to senescence (39 months). Serum LH, serum and testicular testosterone were measured by radioimmunoassay. The binding capacity and affinity of LH/hCG receptors were determined by a radioligand receptor assay (hCG/Leydig cells) using 125I-hCG labelled by the lactoperoxidase method. Separation of bound and free 125I and simultaneous concentrations of 125I-hCG was achieved by vacuum ultrafiltration. The biochemical integrity of 125I-hCG tracer was ascertained by various chromatographic procedures. The highest hCG-finding and highest serum LH levels were found during puberty. Serum and testicular testosterone concentrations, however, were maximal in early adulthood. From this period onwards to late senescence hCG-binding changed only slightly, while serum LH and testosterone levels decreased significantly towards late senescence. The study shows that, although hCG binding to the Leydig cell changes characteristically during development, it is minimally affected by aging and cannot therefore be responsible for the reduced androgen biosynthesis in senescence.     

Temporal changes in rat Leydig cell function after the induction of bilateral cryptorchidism

Adult rats were made bilaterally cryptorchid and studied at intervals of 3, 7, 14 or 21 days to study temporal changes in Leydig cell function. Serum FSH and LH levels were measured and the cross-sectional area of the Leydig cells assessed by morphometry. The function of the Leydig cells was judged by the binding of 125I-labelled hCG to testicular tissue in vitro and the testosterone response of the testis to hCG stimulation in vitro. By 3 days after cryptorchidism, the binding of labelled hCG to testicular tissue was significantly decreased compared to that of controls, but the testes were able to respond to hCG stimulation in vitro. At 7, 14 and 21 days after cryptorchidism, an enhanced testosterone response was observed and the size of the Leydig cells was significantly greater than that of the controls, which indicated increased secretory activity by the cryptorchid testis. Although serum FSH levels were significantly elevated after 3 days of cryptorchidism, serum LH levels did not rise until 7 days, thereby suggesting that the loss of receptors is unlikely to result from down-regulation by LH. The reduced testosterone response of the cryptorchid testis in vivo to low doses of hCG and the enhanced response at high doses are probably related to the reduced blood flow to the cryptorchid testis and the decreased sensitivity of the Leydig cells induced by LH/hCG receptor loss.     

Immunoexpression of androgen receptors and aromatase in testes of patient with Klinefelter's syndrome

Klinefelter's syndrome (47, XXY) is the most common chromosome aneuploidy in men and is usually characterized by underdeveloped testes and sterility. The aim of the present study was to detect cellular distribution of androgen receptors (AR) and aromatase in testes of patient with KS. The tissue sections were processed for morphological and immunohistochemical staining. Additionally, levels of FSH, LH, PRL, estradiol, and testosterone were measured in the plasma. Morphological analysis revealed a complete absence of spermatogenesis. No germ cells were present in seminiferous tubules. In some tubules, nests of apparently degenerating Sertoli cells were found. In the interstitium, Leydig cell hyperplasia was observed. Using immunohistochemistry, nuclear AR staining was detected in Sertoli cells and peritubular cells, whereas in Leydig cells the staining was exclusively cytoplasmic. The immunostaining of aromatase was detected in the cytoplasm of Sertoli cells and Leydig cells. Increased levels of gonadotropins and decreased level of testosterone concomitantly with the cytoplasmic localization of AR in Leydig cells might contribute to the impaired testicular function in patient with KS.     

The different mechanisms for suppression of pituitary and testicular function

The differential mechanisms reducing androgen secretion by LHRH agonists are discussed with relevance to clinical therapy. LH secretion can be desensitised by exposure to agonists using high doses, frequent injections or sustained release/constant infusion. The desensitized pituitary is refractory to hypothalamic stimulation. Pituitary receptor suppression is associated with depletion of pituitary gonadotrophin content, and a decline of LH and FSH secretion to a basal rate. Recovery of LH responsiveness to endogenous LHRH stimulation requires restitution of gonadotrophin content (about 7 days in rats). After long-term infusions in normal men, testosterone secretion recovers within 7-10 days. The binding capacity of testicular LH/hCG receptors is reduced in rats after supraphysiological gonadotrophin stimulation, by agonists or directly by hCG, concomitantly the steroidogenic capacity of the testis in vitro is impaired. Qualitative changes in androgen biosynthesis are a marked fall in testosterone production and dose-dependent enhancement of progesterone production. After 12 months of buserelin injections, the changes in hCG-stimulated rat testes are an increased ratio of progesterone/17-OH-progesterone (inhibition of 17-hydroxylase), a reduced capacity for secretion of androstenedione and testosterone (block of 17,20-desmolase), and increased 5 alpha-pregnane-3,20-dione (this steroid inhibits the 17,20-desmolase, similarly to progesterone). After treatment, Leydig cell function recovers completely. Leydig cell hyperplasia is observed as a result of the steroidogenic changes. These findings in rats have not been observed in dogs, monkeys or in humans.(ABSTRACT TRUNCATED AT 250 WORDS)     

Prolonged stimulation of adenylate cyclase activity and testosterone production by cholera enterotoxin with suppression of gonadotropin release in rats.

Endocrine effects of cholera enterotoxin (CET) on male gonads were investigated in normal and hypophysectomized rats. After intratesticular injection of 5 micrograms of CET in the bilateral testes of normal rats, serum testosterone concentration remarkably increased after 24 hr, remained significantly elevated for at least 3 days and returned to the control level in 7 days. Serum LH level decreased in the undetectable range after 1--3 days; serum FSH level also significantly decreased after 3 days. Both gonadotropin levels increased 28 days after the injection, when the CET-injected testis decreased in weight and was accompanied by marked loss of germinal cells. When 5 micrograms of CET was injected intratesticularly in the bilateral testes of hypophysectomized rats, adenylate cyclase activity of a CET-injected testis was remarkably stimulated after 6 hr, remained four times elevated for at least 3 days and returned to the control level in 7 days. In relatively good accordance with the increase in adenylate cyclase activity, testosterone content remarkably enhanced in the CET-injected testis. These in vivo data indicate that the intratesticular injection of CET prolongedly stimulates the adenylate cyclase activity of testicular cells including Leydig cells and increases testosterone production, and suggest that the prolonged enzyme stimulation results in the sustained elevation of serum testosterone concentration for at least 3 days, causing the stimulation of the negative feedback mechanism of hypophysealtesticular axis to decrease serum LH levels in the undetectable range.     

Regulation of testicular steroidogenesis by gonadotropin-releasing hormone agonists and antagonists

Clinical and experimental studies are described on the effects of a gonadotropin-releasing hormone (GnRH) agonist (A) and antagonist (Ant.) on testicular endocrine function. Testicular effects of long-term gonadotropin suppression by GnRH-A were assessed during treatment of prostatic cancer patients. The testis tissue removed after 6 months of A treatment had less than 5% of the testosterone(T)-producing capacity in comparison to testis tissue removed from untreated control patients. However, the LH receptors (R) and responsiveness of T output to LH stimulation in vitro were unchanged. FSH-R decreased by 70%. Hence, despite suppression of gonadotropins and testicular androgen production during long-term GnRH-A treatment the responsiveness to exogenous gonadotropins is maintained. The testicular effects of a gonadotropin suppression induced with GnRH-Ant. and testicular GnRH-R blockade were studied in rats. Besides decreases of gonadotropins and testicular T, systemic Ant. treatment decreased testicular Prl-R, but had no effect on LH-R or FSH-R. Bromocriptine-induced hypoprolactinemia, in contrast, decreased LH-R but had no effect on Prl-R. The results indicate reciprocal regulation of LH-R and Prl-R, and that testicular steroidogenesis and LH-R are under differential regulation, the former by LH, the latter by Prl. In another study, testicular GnRH-R, and consequently the action of a putative testicular GnRH-like factor, were blocked by unilateral intratesticular infusion of Ant. (1 week, Alzet osmotic pumps). The treatment resulted in 90% occupancy of testicular GnRH-R in the Ant.-infused testes, and this was associated with decreased levels of R for LH, FSH and Prl, and of T. The results indicated that the testicular GnRH-R have a physiological function in subtle stimulation of Leydig cell functions.     

Gonadal dysfunction in the spontaneously diabetic BB rat: alterations of testes morphology, serum testosterone and LH

Serum testosterone, luteinizing hormone (LH), testicular histology and ultrastructure were examined in 91 spontaneously diabetic BB, semi-starved, and control Wistar rats. Between 80-120 days of age serum testosterone was decreased (1.67 +/- .25 vs. 2.95 +/- .48 ng/ml; P less than .05) in the BB rats compared to controls but not different from semi-starved rats. LH values were similar in control and BB rats (49.4 +/- 10.9 vs. 46.8 +/- 6.2 ng/ml). Abnormal lipid droplets were noted within Leydig cells at this period. From 121-150 days of age serum testosterone was lower in BB (1.38 +/- .23 vs. 3.42 +/- .45 vs. 2.94 +/- .81 ng/ml; P less than .05) than controls or semi-starved rats. Serum LH was not significantly higher in controls than in BB rats (63.2 +/- 7.4 vs. 36.6 +/- 12 ng/ml; P = NS). Between 151-200 days of age, there was further lipid accumulation in Leydig cells in the BB rat and occasional epithelial disorganization. After 200 days, serum testosterone decreased (P less than .05) to similar levels in both control and BB rats (1.42 +/- .87 vs. 1.22 +/- .25; P = NS) and was similar in BB rats after 250 days (1.02 +/- .2 ng/ml). After 250 days of age Leydig cell morphology appeared relatively normal but marked alterations were apparent in Sertoli cells, germ cells and morphology of the tubule wall.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of age and luteinizing hormone antiserum on human chorionic gonadotropin-stimulated testosterone secretion in young male rats

The steroidogenic capacity of young male rats of different ages was studied. Two days prior to sacrifice at 5, 10, 15, 20, 25 and 30 days of age, the rats in treatment groups were given intramuscularly either human chorionic gonadotropin (HCG) at 20 I.U. twice daily/rat or luteinizing hormone (LH) antiserum (AS) at 0.25 ml twice daily/rat. Either saline or normal sheep serum (NSS) was given to control rats. The serum and testicular testosterone concentrations in the control rats averaged 0.85 +/- 0.03 ng/ml and 1.35 +/- 0.06 ng/mg testicular protein, respectively. At day-15 the serum and testicular testosterone concentrations in the HCG-treated rats had significantly increased to 9.30 +/- 0.85 ng/ml and 11.92 ng/mg of testicular protein, respectively. At the same age, the HCG-induced higher levels of serum and testicular testosterone concentrations were significantly reduced to 2.80 +/- 0.70 ng/ml and 6.02 +/- 1.00 ng/mg protein by concomitant administration of LH/AS and HCG. Our results suggest that the testosterone production in response to HCG stimulation is age-related. It was also determined that neutralization of circulating gonadotropin in LH/AS-treated rats decreased the sensitivity of Leydig cells to gonadotropin stimulation. This in vivo model should provide an excellent opportunity for the investigation of the testicular function in developing young males.     

Changes in the testis interstitium of Sprague Dawley rats from birth to sexual maturity

Changes in the rat testis interstitium from birth to adulthood were studied using Sprague Dawley rats of 1, 7, 14, 21, 28, 40, 60, and 90 days of age. Our objectives were 1) to understand the fate of the fetal Leydig cells (FLC) in the postnatal rat testis, 2) to determine the volume changes in testicular interstitial components and testicular steroidogenic capacity in vitro with age, 3) to differentially quantify FLC, adult Leydig cells (ALC), and different connective tissue cell types by number and average volume, and 4) to investigate the relationship between mesenchymal and ALC numbers during testicular development. FLC were present in rat testes from birth to 90 days, and they were the only steroidogenic cells in the testis interstitium at Days 1 and 7. Except for FLC, all other interstitial cell numbers and volumes increased from birth to 90 days. The average volume of an FLC and the absolute volume of FLC per testis were similar at all ages except at Day 21, when lower values were observed for both parameters. FLC number per testis remained constant from birth through 90 days. The observations suggested that the significance of FLC in the neonatal-prepubertal rat testis is to produce testosterone to activate the hypothalamo-hypophyseal-testicular axis for the continued development of the male reproductive system. ALC were the abundant Leydig cell type by number and absolute volume per testis from Day 14 onwards. The absolute numbers of ALC and mesenchymal cells per testis increased linearly from birth to 90 days, with a slope ratio of 2:1, respectively, indicating that the rate of production of Leydig cells is 2-fold greater than that of mesenchymal cells in the postnatal rat testis through 90 days. In addition, this study showed that the mesenchymal cells are an active cell population during testis development and that their numbers do not decrease but increase with Leydig cell differentiation and testicular growth up to sexual maturity (90 days).     

Morphofunctional alterations in testicular cells of deslorelin-treated boars: an immunohistochemical study

In this study we thoroughly scrutinized testes morphology and investigated whether treatment of recipient boars with gonadotropin-releasing hormone (GnRH)-agonist deslorelin could alter the expression of 3beta-hydroxysteroid dehydrogenase (3beta-HSD), luteinizing hormone receptors (LHRs), and androgen receptors (ARs) in testicular cells. An implant containing 4.7 mg of the GnRH-agonist deslorelin was subcutaneously inserted into crossbred male pigs at 91 and 147 days of age. Testicular traits, morphology of the testes, the proteins' expression, and testosterone concentration in blood plasma were analyzed in all boars after slaughter at 175 days of age. Histological analysis revealed significant alterations in both the interstitial tissue and seminiferous tubules of experimental animals after 28 and 84 days of deslorelin treatment. The intensity of the AR immunostaining within the testis appeared as a function of the severity of testicular dysgenesis. Time-dependent action of deslorelin on the expression of LHR and 3beta-HSD in Leydig cells was also detected. Staining for LHR and 3beta-HSD was very weak or the Leydig cells were immunonegative. Concomitantly, a significant decrease in plasma testosterone level was found in both groups of deslorelin-treated boars when compared with the control group. This is the first report showing the cellular distribution of AR, LHR, and 3beta-HSD in testicular cells of deslorelin-treated boars. It is concluded that morphological and immunohistochemical studies are important for the evaluation of testicular histoarchitecture and steroidogenic function. Subsequently, the endocrine control of reproduction in the GnRH-agonist deslorelin-treated males will be better understood.     

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.     

The endocrine function of rat gonads with reduced number of germ cells following busulphan treatment

The endocrine function of rat gonads with an experimentally reduced number of germ cells was examined to analyse the effect of germ cells on the surrounding somatic endocrine cells. Pregnant Wistar rats received a single i.v. injection of 10 mg/kg B.W. of Busulphan on day 15 of gestation to prevent fetal primordial germ cells from starting mitotic division. The gonadal growth and the number of germ cells in Busulphan-treated rats (B-rats) were severely arrested. Almost a normal testicular structure was formed in the males, while few follicular structures were formed in the females, suggesting that the presence of oocytes in the fetal ovary is a prerequisite to the formation of the follicle. The meiotic division of spermatogonia in B-rats, which started on day 20 as in controls, stopped before the completion of spermatogenesis, and germ cells disappeared by day 50. The remaining germ cells and the associated follicles in female B-rats also disappeared by day 60 after repeating irregular estrous cycles for approximately 1 month. Thereafter the ovary consisted of fibroblasts and morphologically interstitial-like cells. Vaginal opening occurred in B-rats on day 28-30, a-week earlier than in controls. Changes in serum GTH after ovariectomy and the estradiol treatment suggested the maturation of the negative feedback sensitivity to estradiol in this period, and besides, earlier estradiol production with less dependency on gonadotropin. The vaginal epithelium of B-rats was cornified continuously after day 60. The ovarian cells in this period did not luteinize either morphologically or functionally in response to an ovulatory dose of hCG. During the same period, the conversion rate from progesterone to estradiol in ovarian homogenates of B-rats was considerably higher than those of controls at any stage of the estrous cycle. High content of estradiol was detected in the testes of B-rats at any age. In male B-rats, both LH and FSH levels in serum were higher than controls. The serum testosterone concentration in B-rats was lower than the normal, while the testicular testosterone content was greater. In conclusion, with a decreased number of germ cells, the rat gonads of both sexes secrete estradiol very efficiently.     

Androgen secretion and characteristics of testicular HCG binding in cryptorchid rats

Response of the cryptorchid testis to gonadotrophic stimulation was assessed by comparison of the androgen production capability in vivo and in vitro with that of the normal scrotal testis. Serum androgen concentrations in cryptorchid rats were similar to those in normal rats, and the incremental increase 60 min after 50 i.u. hCG (i.v.) was about 7-fold for both groups. Basal and hCG-stimulated androgen production in vitro was higher for abdominal testes (557 and 3286 ng/pair) than for scrotal tests (157 and 504 ng/pair). Specific binding of hCG by testicular homogenates was slightly higher (P < 0.05) for cryptorchid testes when expressed per unit weight, but Scatchard analysis indicated that although hCG binding affinities did not differ (Ka = 2 x 10(10) M-1), hCG binding capacity of cryptorchid testes was only 75 ng, compared to 219 ng for scrotal testes. These data indicate that a discrepancy exists between androgen production in vivo and in vitro by cryptorchid testes and that normal serum androgen concentrations are maintained in the presence of decreased numbers of testicular LH/hCG receptors.     

Increase in testicular androgen receptor during sexual maturation in the rat

Androgen receptor concentration was measured by exchange with 3H-dimethylnortestosterone (DMNT) in cytosol and nuclear extracts from testes of rats 15-90 days of age. Dissociation kinetics verified the necessity of an extended incubation (86 h) for maximum exchange at 4 degrees C. Nuclear androgen receptor concentration per mg DNA decreased between 15 and 25 days of age, from 375 to 146 fmol per mg DNA, then increased to 584 fmol per mg DNA at 90 days. Testicular receptor content also increased between 25 and 90 days of age. Cytosol receptor concentration patterns were similar to nuclear androgen receptor patterns. The affinity of the receptor for the ligand did not change with age (mean Kd = 0.88 nM). No significant difference in androgen receptor concentration per cell was detected between cultured peritubular cells from animals 25 and 45 days of age. Androgen receptor concentrations in freshly isolated peritubular cells could not be determined. There also was no difference in receptor concentration per cell in a Leydig cell-enriched fraction from animals between 25 and 45 days of age. Although androgen receptor concentrations per Sertoli cell increased between 15 and 35 days of age, the increase in Leydig cell number over the same period probably accounted for approximately 75% of the increase in receptor per testis between 25 and 45 days of age.