A transplantable rat Leydig cell tumor--5. Cellular localization of beta-adrenergic and prostaglandin receptors and their effects on testosterone production

The cellular localization of beta-adrenergic and prostaglandin (PG) receptors and their effects on adenylate cyclase activity (AC) and testosterone production in vitro were investigated in a transplantable rat Leydig cell tumor (H-540). Separation of the tumor cells in Percoll gradients revealed that the specific binding of [3H]PGE1 and [125I]Cyanopindolol was found in the same fraction as that of [125I]LH. This fraction--judged by light microscopy of smears--consisted of tumor Leydig cells. In addition, [125I]cyanopindolol was found specifically bound in the red blood cell fraction. In the Leydig tumor cells, approx 25% of the beta-adrenergic receptors was identified as beta 1-receptors, whereas approx 75% of the receptors were of the beta 2-subtype. The AC in Percoll purified Leydig tumor cells was stimulated by hCG (6-fold), PGE1 (2-fold), PGE2 (1.5-fold), PGI1 (2-fold) and isoproterenol (2-fold). The AC in the red blood cell fraction was stimulated by isoproterenol whereas the PGs and hCG had little or no effect. hCG, isoproterenol and PGE1 were able to stimulate testosterone production in vitro. At 44 h incubation, PGE1 was the most potent stimulator of testosterone production. In conclusion, tumor Leydig cells possess hCG, PGE1, PGI2 and beta-adrenergic receptors coupled to the AC. PGE1 and beta-adrenergic agonists stimulate testosterone production after prolonged incubation in vitro.     

A transplantable rat Leydig cell tumor--3. Isoproterenol and prostaglandin E1 (PGE1) responsive adenylyl cyclase (AC). Regulatory effects of nucleotides and magnesium

The activity of the membrane bound adenylyl cyclase (AC), the effects of nucleotides, Mg2+-cations and its responsiveness to isoproterenol and prostaglandin E1 (PGE1) were examined in a transplantable rat Leydig cell tumor (H-540). Both isoproterenol and PGE1 caused activation of the AC in Leydig cell tumors. The degree of activation by PGE1 (4-5-fold) was approximately twice that of isoproterenol (2-3-fold). The addition of both AC agonists simultaneously was not additive indicating that they activate AC of the same cell. Increasing concentrations of ATP (0.025-2.0 X 10 mM) caused a concentration dependent increase in both the basal and hormone stimulated AC activity, and the activation by isoproterenol and PGE1 (relative response) revealed a slight but significant increase with increasing ATP concentrations. Lineweaver-Burke analysis of these data indicated an apparent Km for ATP (Mg X ATP) of 0.16 mM. Free magnesium did not influence the apparent Km of the AC for ATP. Increasing concentrations of free Mg2+ (0.24-13.2 mM) also caused a concentration dependent increasing activation of AC activity up to a concentration of approx 6 mM in excess of Mg2+-binding ingredients. Higher concentrations of free Mg2+ (13.1 mM) caused a small but significant decrease in both basal and agonist stimulated AC activity. In contrast to other reports, activation by isoproterenol and PGE1 was in general not influenced by the concentration of Mg2+. Both GTP and GMP-P(NH)P stimulated basal and hormone stimulated AC activity (Kact 1 microM), but with different kinetics. In the presence of GTP, AC activity was almost constant for 90 min. In the presence of GMP-P(NH)P, AC activity was much higher, but constant AC activity occurred after a certain lag time (7-10 min), which was reduced by PGE1 and isoproterenol. In conclusion, cAMP production in Leydig cell tumors is stimulated by both PGE1 and isoproterenol. The AC activity and activation by these agonists are regulated by Mg2+ and nucleotides in a slightly different manner from most other cells. The association between AC activation and stimulation of steroid production by Leydig cell tumors remains to be investigated.     

A transplantable rat Leydig cell tumor--1. LH and prolactin receptors and effects of the endocrine status of the host animal

We have examined the binding capacity and properties (affinity, specificity) of LH and prolactin (Prl) receptors in a transplantable rat Leydig cell tumor (H-540) grown in intact, castrated and hypophysectomized rats. LH receptors in adult rat testis and Prl receptors in the rat ventral prostate were examined simultaneously for comparison. The results can be summarized as follows: The qualitative properties (affinity, specificity) of LH and Prl receptors in tumor Leydig cells appear to be identical to those of corresponding receptors in non-tumor tissues. The levels of LH receptors in tumor Leydig cells are only some 1% of that present in normal Leydig cells from adult rats. Tumor Leydig cells grown in hypophysectomized rats had even lower levels of LH receptors; ca. 1/3 of that found in tumors from intact rats. The levels of Prl receptors in the tumor Leydig cells are almost as high as in normal Leydig cells from adult rats. In tumors grown in hypophysectomized rats, the levels of Prl receptors were much lower (ca. 20%) than in tumors from intact or castrated rats. There were great variations in the number of LH and Prl receptors in individual tumors, and there was a positive correlation (r = 0.88; P less than 0.01) between LH and Prl receptors in individual tumors. No differentiation toward a "LH receptor tumor" or "Prl receptor tumor" was observed. Thus, receptors for LH and Prl in tumor cells are qualitatively normal, but the number is greatly (LH) or moderately (Prl) reduced. These receptors in the tumor Leydig cells are stimulated by pituitary hormones.     

Effects of forskolin on androgen production by mouse interstitial cells in vitro. Interactions with luteinizing hormone and isoproterenol

Micromolar concentrations of the diterpene forskolin stimulated androgen production by collagenase-dispersed mouse testicular interstitial cells. With maximum stimulatory concentrations, forskolin and luteinizing hormone (LH) increased androgen production with similar time courses and to similar extents. The concentration of LH required for half-maximum stimulation (EC50) was reduced approximately 10-fold in the presence of forskolin whereas maximum androgen production was unaffected. Likewise, LH reduced the EC50 for forskolin approximately 5-fold. The observed synergism between LH and forskolin was most likely at the level of cAMP generation as forskolin did not alter the EC50 for dibutyryl cAMP activation of androgen production. When cells were allowed to attach to the wells of tissue culture plates for 3 h prior to stimulation, isoproterenol treatment induced a small increase in androgen production when, and only when, submaximum concentrations of forskolin were also present. The increase in androgen production attributable to isoproterenol was blocked by simultaneous exposure to the beta-antagonist propranolol. When cells were immediately (O h) exposed to forskolin and isoproterenol, no interaction was observed. These results demonstrate the ability of forskolin treatment to reveal the presence of "latent" beta-adrenergic receptors. They also indicate that isolated adult mouse Leydig cells may not contain such receptors.     

Stimulatory effect of follicle-stimulating hormone on rat Leydig cells

Summary The effects of FSH on the testicular interstitial tissue of immature hypophysectomized rats were studied by comparing morphological changes in Leydig cells with quantitative changes in interstitial tissue histology using morphometric analysis. Three groups of rats received subcutaneous injections of 0.5 ml saline vehicle or 10 g rFSH or 20 ng oLH (equivalent to the amount of LH known to contaminate the FSH), twice daily for 7 days. Administration of FSH significantly increased testis weight and stimulated more advanced spermatogenesis compared to saline or LH. Morphometric analysis of testes of LH-treated rats showed a small but significant increase in total interstitial cell volume compared to saline treatment. FSH caused much greater increases in the total volume of interstitial tissue and interstitial cells than either saline or LH and significantly increased the total volume of interstitial fluid by comparison with the other groups. FSH but not saline or LH treatment resulted in a striking hypertrophy of Leydig cells, to produce cells ultrastructurally identical to Leydig cells from adults. Since the target tissue of FSH is the seminiferous epithelium, the observed effects on Leydig cells by FSH treatment suggest that the secretion of factors by the seminiferous tubules may mediate the maturation of Leydig cells.     

Development of adenosine responsiveness after isolation of Leydig cells

Effects of adenosine and related compounds on the regulation of steroid production by isolated Leydig cells have been investigated. Steroid production by freshly isolated Leydig cells from testes of immature or mature rats and mice, or from Leydig tumor tissue could not be stimulated with adenosine, nicotinamide-adenine dinucleotide (phosphate) [NADPH, NAD(P)] or N6-(1-2-phenylisopropyl)-adenosine (PIA) (50 microM), whereas luteinizing hormone (LH) stimulated steroid production more than 10-fold. After 24 h incubation all adenosine-related compounds, but not inosine, stimulated steroid production to 20-100% of the maximal LH-stimulated activity. LH- or 22R -hydroxycholesterol-stimulated steroidogenesis in Leydig cells from immature rats did not decrease during the 24-h culture period, whereas ATP levels increased. The first significant effect of adenosine on steroid production in these cells was found after an incubation period of 3 h. In cells incubated for 1 h and 24 h, LH stimulated cyclic adenosine 3':5'-monophosphoric acid (cAMP) production 10-fold. Significant effects of adenosine and PIA on cAMP production or protein phosphorylation could only be shown in cells incubated for 24 h. Effects of adenosine on Leydig cells in intact testis tissue of immature rats could not be determined. The results suggest that after isolation of Leydig cells, specific alterations in the cell membrane occur, causing increased sensitivity to adenosine and related compounds. Adenosine apparently does not play a role in the role of steroid production in Leydig cells in vivo.     

Catecholamine stimulation of androgen production by rat Leydig cells. Interactions with luteinizing hormone and luteinizing hormone-releasing hormone

The mechanism(s) of the development of response to catecholamines (CA) by Leydig cells in culture was investigated with the use of primary culture of purified Leydig cells of adult rats. The interactions of a CA agonist, isoproterenol (ISOP), with luteinizing hormone (LH) and a luteinizing hormone-releasing hormone agonist analog (LHRHa) on production of androgen by the Leydig cells were also studied. Cells incubated with ISOP for 3 h increased release of cyclic adenosine 3',5'-monophosphate (cAMP) to similar extents at 0, 3, and 24 h of culture. The beta-agonist did not increase androgen release at 0 h but had a concentration-dependent effect at 3, 24, and 48 h of culture, with maximal effects at 24 h. LH stimulated high increases in production of cAMP and androgen by the cells at 0-24 h of culture. Leydig cell beta-receptors decreased with culture time. Low concentrations but not high levels of LH had additive effects with ISOP on androgen release. ISOP showed a complex interaction with LHRHa on androgen release. Chronic exposure of Leydig cells to LHRHa reduced basal androgen release as well as release of androgen stimulated by ISOP, forskolin, and LH. These studies suggest that the development of response to CA by rat Leydig cells is a postreceptor, postcAMP event and showed that CA can interact with LH or LHRH to regulate Leydig cell function.     

Effect of luteinizing hormone on RNA synthesis in Leydig cells of immature rats

Luteotrophic hormone acts on testicular interstitial cells, promoting the activation of several cellular events that culminate in steroids synthesis. Since the interstitial tissue include several cell types, purified Leydig cells were used in this work. Isolated interstitial cells from immature rats were purified through a 0-40% metrizamide gradient. Either LH, HCG or Bt2-cAMP significantly stimulated the incorporation of [3H]uridine into RNA, when compared to control. The effect of HCG on RNA synthesis was developed within 30 min after the addition of the hormone and was dose-dependent. The maximum effect was attained with 10 mIU/ml of HCG. These results indicate that HCG/LH or Bt2-cAMP but not FSH, promote an acute stimulation of RNA synthesis by Leydig cells from immature rats.     

Effects and interactions of LH and LHRH agonist on testicular morphology and function in hypophysectomized rats

The effects of single or combined daily treatment with an LHRH agonist and low or high doses of LH upon the testes of adult hypophysectomized rats were studied for up to 2 weeks in which changes in testicular histology, particularly the interstitial tissue, were examined by morphometry and related to functional assessment of the Leydig cells in vivo and in vitro. Compared to saline-treated controls, LHRH agonist treatment did not alter testis volume or the composition of the seminiferous epithelium or any of the interstitial tissue components although serum testosterone and in-vitro testosterone production by isolated Leydig cells were significantly reduced. With 2 micrograms LH for treatment, testis volume was increased, spermatogenesis was qualitatively normal, total Leydig cell volume was increased, serum testosterone values were initially elevated but subsequently declined and in-vitro testosterone production was enhanced. Testis volume with 20 micrograms LH treatment was unchanged compared to saline treatment, the seminiferous epithelium exhibited severe disruption but total Leydig cell volume was greatly increased due to interstitial cell hyperplasia. This group showed elevated serum testosterone concentrations and major increases in testosterone production in vitro. Treatment with LHRH agonist with either dose of LH resulted in reduced testis volume, moderate to very severe focal spermatogenic disruption and increased total Leydig cell volume although serum testosterone values and in-vitro testosterone production were markedly reduced compared to control rats. It is concluded that, in the absence of the pituitary, LHRH agonist fails to disrupt spermatogenesis and the previously described antitesticular action of LHRH agonists in intact rats is therefore dependent upon the presence of LH, which alone or in combination with LHRH agonist, may focally disrupt spermatogenesis in hypophysectomized rats whereas the Leydig cells undergo hyperplasia. The findings show that impairment of spermatogenesis is accompanied by alterations of the interstitial tissue and suggest that communication between these two compartments is involved in the regulation of testicular function.     

Multiple regulation of testicular steroidogenesis

One single injection of ethylene dimethane sulfonate (EDS) to mature rats causes specific degeneration of testicular Leydig cells which is complete after 3 days. At this time no steroidogenic activities can be detected, indicating that Leydig cells are the source of steroids. The mechanism of this cytotoxic effect of EDS has been investigated with isolated cells. Extensive protein alkylation has been shown to occur in Leydig cells, Sertoli cells and hepatocytes. Steroid production by Leydig cells is always inhibited by EDS, but cytotoxic effects of EDS could only be demonstrated in Leydig cells from mature rats or tumour tissue and not in Leydig cells from immature rats. A new population of Leydig cells develops during the next 2-5 weeks after EDS treatment. In hypophysectomized rats this repopulation only occurs when hCG is given daily. FSH has no effects. The proliferative activity in the interstitial tissue increases within 2 days after administration of hCG or EDS and there are indications that LH and locally produced factors are involved in the proliferation of Leydig cells or Leydig cell precursor cells. Inhibition of cAMP production with inhibitors of adenylate cyclase results in an enhancement of the LH-stimulated steroid production similar to that observed with an LHRH agonist and phospholipase C (PLC). Since the effects of LHRH and PLC on protein phosphorylation and steroid production are similar and different from LH or active phorbol esters, it is proposed that LHRH and PLC may stimulate steroid production via liberation of calcium from a specific intracellular pool. Sterol carrier protein2 (SCP2) which is specifically localized in Leydig cells and regulated by LH probably plays a role in the delivery of cholesterol to the mitochondria although the mechanism of this carrier function is not clear. The results indicate that regulation of Leydig cell development and the steroidogenic activities by gonadotrophins and locally produced factors occur via different transducing systems and regulatory pathways.     

Establishment of gonadotropin-responsive murine leydig tumor cell line

Several clonal Leydig tumor cell lines have been established by adapting the transplantable Leydig tumor, M548OP, to culture. One of these cell line, MLTC-1, has been characterized with regard to the gonadotropin-responsive adenylate cyclase system. The binding of 125I-labeled human chorionic gonadotropin (hCG) was blocked by excess unlabeled hCG and lutropin (LH) but not by follitropin, thyrotropin, or insulin, indicating the presence of specific receptors for hCG and LH. Based on the specific binding of hCG to isolated MLTC-1 membranes, the calculated dissociation constant was 1.0 +/- 0.2 X 10(-10) M. The receptors appeared identical to those from normal murine Leydig cells when analyzed by SDS PAGE and sucrose density gradient centrifugation. The molecular weight and sedimentation coefficient were 95,000 daltons and 8.5 S, respectively. MLTC-1 cells responded to hCG by accumulating cyclic AMP and producing progesterone. Cyclic AMP accumulation was time- and dose-dependent with a maximal accumulation occurring at approximately 0.2 nM hCG. At saturating levels of hCG, cAMP levels reached a maximum by 30 min and then declined very slowly. Adenylate cyclase activity in membranes prepared from MLTC-1 cells was stimulated by hCG, LH, NaF, cholera toxin, and guanyl-5'-ylimidodiphosphate, Additionally, choleragen was found to ADP-ribosylate a membrane protein of 54,000 daltons. This protein resembles the proposed guanine nucleotide regulatory component in both size and choleragen-dependent reactivity. These data suggest that MLTC-1 cells possess a gonadotropin-responsive adenylate cyclase system consisting of a specific hormone receptor, a regulatory component, and a catalytic subunit.     

Are developing beta-adrenoceptors able to desensitize? Acute and chronic effects of beta-agonists in neonatal heart and liver

During fetal and neonatal development, beta-adrenergic receptors (beta-ARs) appear to be resistant to desensitization by beta-agonist drugs. To determine the mechanisms underlying the regulatory differences between adults and neonates, we administered isoproterenol, a mixed beta(1)/beta(2)-AR agonist, and terbutaline, a beta(2)-selective agonist. Effects were examined in the ensuing 4 h after a single injection, or after the last of four daily injections. We prepared cell membranes from heart (predominantly beta(1)-ARs) and liver (predominantly beta(2)-ARs) and assessed signal transduction in the adenylyl cyclase (AC) pathway. In the first few hours after a single administration of isoproterenol to adult rats, cardiac beta-ARs showed activation of G proteins (elevated AC response to forskolin) and desensitization of beta-AR-mediated responses; after the fourth injection, heterologous desensitization emerged, characterized by a loss of signaling mediated either through beta-ARs or glucagon receptors. Terbutaline evoked an increase in the forskolin response but no desensitization of receptor-mediated responses. When we gave the same treatments to neonatal rats, we observed cardiac G protein activation, but there was neither homologous nor heterologous desensitization of beta-ARs or glucagon receptors. In the adult liver, isoproterenol and terbutaline both failed to evoke desensitization, regardless of whether the drugs were given once or for 4 days. In neonates, however, acute or chronic treatment elicited homologous desensitization of beta-AR-mediated AC signaling, while sensitizing the response to glucagon. These results show that neonatal beta-ARs are inherently capable of desensitization in some, but not all, cell types; cellular responses can be maintained through heterologous sensitization of signaling proteins downstream from the receptor. Differences from adult patterns of response are highly tissue selective and are likely to depend on ontogenetic differences in subtypes of beta-ARs and AC.     

Leydig cell mitoses in human testes bearing early germ cell tumors

Summary Numerous mitoses were noted in testicular tissue from adult men with early germ cell tumors. More than 15 Leydig cells undergoing mitosis were found in the interstitial compartment. The presence of specific crystalline intracytoplasmatic inclusions demonstrated for the first time that differentiated Leydig cells are capable of proliferation. Occasionally cells are difficult to discriminate during mitosis. To establish reference criteria, the light- and electron-microscopic features of the following mitotic cells were examined: Leydig cells, fibroblasts, perivascular cells, peritubular cells, and lymphocytes. Supplementary mitoses in germ cell tumors and in a case of Leydig cell tumor were investigated. In the literature, only single reports of mitoses in Leydig cells are available. The frequent incidence of Leydig cell mitosis in early germ cell tumors may be due to the presence of growth-promoting factors in the testicular tissue.     

Gonadotropin induction of a regulatory mechanism of steroidogenesis in fetal Leydig cell cultures

Studies were conducted to define further the development of the gonadotropin induced, E2 mediated steroidogenic lesion (17-alpha-hydroxylase/17,20-desmolase) in fetal Leydig cell cultures. Analysis of dispersed fetal testes purified by centrifugal elutriation demonstrated a group of cells with sedimentation velocity 12 less than to less than 16.8 mm/h.g containing a small population of adult like "transitional" Leydig cells and homogeneous "fetal" Leydig cell population collected at greater than 19.3 mm/h.g. After cells were cultured for 3 days with addition of 1 microgram oLH at 3 day intervals, the transitional cells showed testosterone accumulation comparable to the fetal cells. In contrast, transitional cells had 10-fold higher basal and hCG-stimulated aromatase activity than fetal cells, and a lack of testosterone response to acute (3 h) hCG stimulation. At day 6, transitional cells steroidogenic ability declined markedly. The fetal population maintained in culture with LH additions every 3 days, showed typical immature Leydig cell response, with enhancement of acute testosterone response to hCG at 3 day (1-fold) and at 6 day of culture (5-fold). Higher doses of LH (5 micrograms/day) or daily treatment of 1 microgram to fetal cultures, induced a lesion of 17 alpha-hydroxylase/17,20-desmolase with reduction of enzymatic activities (P less than 0.01) and impaired testosterone production (P less than 0.01) in response to acute hCG stimulation. Also aromatase was stimulated by hCG + 140% and 50% and E2 receptors were increased by 100 and 180% at 3 days and 6 days of cultures with daily or high dose LH addition, findings consistent with the observation of the E2-mediated lesion during LH action. In conclusion, the cultured fetal Leydig cell provides a useful model to elucidate molecular mechanisms involved in the development of gonadotropin-induced estradiol-mediated desensitization. Treatment of fetal Leydig cell cultures with multiple or frequent doses of LH elevate aromatase activity to necessary levels for the induction of desensitization. We have isolated small population of transitional Leydig cells with morphological characteristics of cells found in 15 day post-natal testis but functional capabilities of adult cells. We have also demonstrated the emergence of a functional adult-like population from the fetal Leydig cell.     

Adenylate cyclase activity of the plasma membranes of lung tissue at lengthy periods following non-lethal gamma-irradiation of rats

Basal and stimulated activity of adenylate cyclase (cyclizing ATP-pyrophosphate lyase, E.C. 4.6.1.1., AC) in plasma membranes of pulmonary tissue was being studied during a year after fractionated irradiation of rats (2 GyX3). Basal and hormone-stimulated activity of AC was shown to vary significantly from normal 6 and 12 months after irradiation. The exposed membranes responded differently to AC activation by isoproterenol and F-.     

Phorbol esters inhibit LH stimulated steroidogenesis by mouse Leydig cells in vitro

The effect of phorbol esters on the stimulation of testosterone production in response to LH was studied in mouse Leydig cells incubated in vitro. The tumor promoting phorbol esters, Phorbol-12-myristate-13-acetate and Phorbol-12-13-didecanoate at nanomolar concentrations effectively inhibited testosterone production by Leydig cells in response to stimulation by LH, whereas non-tumor promoting phorbol esters were ineffective. When the cells were stimulated by 8Br-cAMP, instead of LH, the testosterone production was stimulated similarly as in the presence of LH, but phorbol esters were without any effect. This suggests that the tumor promoting phorbol esters may act in the Leydig cells by suppressing the stimulation of cAMP production in response to hormonal activation and/or by interfering with the hormone-receptor interaction.     

Leydig cell tumor of the testis with azoospermia and elevated delta4 androstenedione: case report

Background

Secreting interstitial cell (Leydig cell) tumors are rare. In adults, the clinical picture and steroid levels are variable.

Case presentation

This paper presents a case of left testicular tumor, showing azoospermia with normal serum level of total testosterone, collapsed FSH and LH, and high delta4 androstenedione. Histopathological investigation revealed a Leydig cell tumor. TESE allowed spermatozoa extraction and freezing. Testicular histology found hypospermatogenesis and germ-cell aplasia with interstitial fibrosis. Surgical resection of the tumor resulted in normalization of gonadotropins and fall in serum delta4 androstenedione to subnormal levels in the postoperative period confirming that the tumor was secreting delta4 androstenedione. It was hypothesized that high delta4 androstenedione resulted in intra tumoral 17 β-HSD overtaken by delta4 androstenedione or that 17 β-HSD activity in the tumor was different from that of normal Leydig cells. Three months after surgery sperm analysis found a complete recovery of spermatogenesis. A spontaneous pregnancy occurred 3 months after surgery and a girl was born.

Conclusions

In this case, the diagnosis of testicular Leydig cell tumor secreting delta4 androstenedione was made in a context of azoospermia.

     

Testicular function and Leydig cell ultrastructure in long-term bilaterally cryptorchid rams

This study was conducted to investigate the effects of bilateral cryptorchidism induced in adult rams on testicular function and Leydig cell ultrastructure. The results indicated that long-term bilateral cryptorchidism resulted in decreased testicular size, degeneration of seminiferous tubules, elevated serum LH levels, maintenance of normal testosterone concentrations in peripheral and spermatic vein serum, impairment of the magnitude and duration of androgen response to exogenous luteinizing hormone (LH), a 13-fold reduction in total number of Leydig cells/paired testes, and a 3-fold hypertrophy in the average size of remaining Leydig cells. Based on quantitative morphometry, the hypertrophied Leydig cells exhibited significant increases in the volume of intracellular organelles, including the cell nucleus, mitochondria, smooth and rough endoplasmic reticulum, lysosome-like bodies and lipid vesicles. Quantitatively, the hypertrophy alone was not enough to offset the loss in number of Leydig cells and was insufficient to explain the maintenance of normal levels of testosterone in jugular and spermatic venous blood. The additional mechanisms responsible for production of normal serum testosterone levels in the cryptorchid ram remain to be elucidated.     

Regulation of 5 alpha-reductase activity in cultured immature leydig cells by human chorionic gonadotropin

The present studies examined the hormonal regulation of 5 alpha-reductase activity in cultured immature rat Leydig cells. Within the testis 5 alpha-reductase was concentrated in the interstitial cell compartment, and among interstitial cells, the enzyme was localized primarily in Band 3 of Percoll density gradients, which contains the majority of Leydig cells. Among various factors reported previously to stimulate testicular 5 alpha-reductase activity when administered in vivo to immature rats (LH/hCG, FSH, luteinizing hormone releasing hormone or prolactin), only LH/hCG directly stimulated 5 alpha-reductase activity of cultured immature Band 3 cells. Neither growth hormone which was reported previously to stimulate hepatic 5 alpha-reductase activity, nor insulin, insulin-like growth factor-I, or epidermal growth factor, which have been reported to modulate Leydig cell function, had any effect on 5 alpha-reductase activity of Band 3 cells. These studies suggest that the major factor directly stimulating 5 alpha-reductase activity in Leydig cells during early maturation is LH. However, it is possible that other factors acting indirectly may modulate the maturational rise in 5 alpha-reductase activity.     

Regulation of adenylyl cyclase signaling system by insulin, biogenic amines and glucagon at their separate and combined action in muscle membranes of mollusc Anodonta cygnea

In the smooth muscles of mollusc Anodonta cygnea the regulatory action of hormones on adenylyl cyclase signaling system (ACSS) are realized through the receptors of serpentine type (biogenic amines, isoproterenol, glucagon) and receptor tyrosine kinase (insulin) type. Intracellular mechanisms of their interaction are interconnected. Application of hormones, their antagonists and pertussis toxin in combination with insulin and biogenic amines or glucagon on adenylyl cyclase (AC) activity allows revealing the possible sites of cross-linking in the mechanisms of their action. Combined influence of insulin and serotonin or glucagon leads to decreased stimulation of adenylyl cyclase (AC) by these hormones, whereas combined application of insulin and isoproterenol suppresses AC-stimulating effect of insulin, but AC-inhibiting effect of isoproterenol is maintained in the presence and absence of non-hydrolysable analog of GTP—guanylyl imido diphosphate (GIDP). The specific blockage of AC-stimulating effect of serotonin by cyproheptadine—antagonist of serotonin receptors, did not change AC stimulation by insulin. Beta-adrenoblockers (propranolol and alprenolol) prevent inhibition of AC activity by isoproterenol, but did not change AC stimulation by insulin. Pertussis toxin blocked AC-inhibiting effect of isoproterenol and weakened AC-stimulating action of insulin. Thus, in the muscles of Anodonta cygnea negative interaction between ACS have been revealed, which are realized under combined influence of insulin and serotonin or glucagon, most probably, at the level of receptor of serpentine type (serotonin, glucagon), whereas under action of insulin and isoproterenol at the level of G_i protein and AC interaction.