Visualization of the cytoskeleton in Leydig cells in vitro

Summary Effect of LH, vinblastine and cytochalasin B on the cytoskeleton of cultured Leydig cells was investigated using monoclonal antibodies and fluorescence microscopy. After LH addition and treatment with cytoskeletal disrupting drugs, three main effects were observed: 1) increase of androgen level secreted by cultured mouse Leydig cells, 2) changes of cell-shape towards regular and rounded, 3) increase of ⁵,3-HSD activity. The results are discussed in respect to possible involvement of cytoskeleton in the regulation of steroidogenesis.     

Luteinizing hormone-induced modifications of the cytoskeleton in cultured mouse Leydig cells

Modifications of cytoskeleton organization during the culture of mouse Leydig cells in the presence or absence of luteinizing hormone (LH) have been demonstrated. The main changes were observed in the distribution of microfilaments. Stress fibres dispersed or even disappeared after 6 or 12 h of LH treatment. Concurrently, no substantial changes in microtubule and intermediate filament organization were found. The presence of tubulin or microtubule-associated protein in the mid-bodies and nuclei was noticed with the use of A8B3 monoclonal antibody. The increased amount of protein detected by this antibody was correlated with enhancement of androgen secretion and proliferation of cultured Leydig cells.     

Inhibitory effect of Sertoli cell-cultured media on LH binding to mouse Leydig cells in culture

The aim of this study is to examine the influence of Sertoli cells on LH binding to Leydig cells in culture in immature mice. Leydig cells and Sertoli cells were obtained from the testes of immature C57BL/6Ncrj mice and were cultured in serum-free medium for 7 days. The LH binding to Leydig cells and the FSH binding to Sertoli cells were dependent on incubation time, the number of cells, and the amount of labelled hormone added. The dissociation constant for LH binding to Leydig cells was 7.3 x 10(-10) M. Co-culture of Leydig cells with Sertoli cells for 7 days decreased LH binding to Leydig cells. The binding was 34.9% of that to Leydig cells cultured alone. After cultivation of Leydig cells with spent Sertoli cell-cultured medium (SM) for the last 4 days of the 7-day culture period, LH binding to Leydig cells decreased to as low as 17.4% of that of the controls. For the controls, LH binding was measured in Leydig cells cultured in spent Leydig cell-cultured medium (LM). There was no difference between SM- and LM-cultures in the final survival rate or the percentage of cells showing histochemically demonstrated 3 beta-hydroxysteroid dehydrogenase activity. These data suggest that some factor or factors are secreted from the cultured Sertoli cells and inhibit the binding of LH to Leydig cells in culture.     

Effect of in vitro administration of LH, prolactin separately and LH and prolactin in mixture, on cultured Leydig cells from mouse testes: I. Changes of delta 5, 3 beta-hydroxysteroid dehydrogenase during postnatal life

Activity of delta 5, 3 beta-hydroxysteroid dehydrogenase in cultured Leydig cells isolated from mouse testes of various age was quantitatively investigated. Activity of delta 5, 3 beta-HSD was low in testes after birth and increased in 21 day old mouse, and then decreased in Leydig cells of 28 day old animals. Maximum activity of dehydrogenase within Leydig cells was observed in 60 day old mice and then gradually declined simultaneously with ageing process. Significant increase of enzymes activity was observed in Leydig cells cultured in medium containing a mixture of 100 ng LH and 100 ng PRL/ml. Doses of either 100 ng LH alone or 100 ng PRL alone showed higher stimulation than lower doses of 10 ng. Changes of activity were statistically significant.     

Luteinizing hormone receptor splicing variants in bovine Leydig cells

The luteinizing hormone receptor (LHR) plays a key role in testosterone production through its interaction with the gonadotropins, LH and chorionic gonadotropin. We examined the LHR splicing pattern in bovine Leydig cells; LH-induced expression of eight cloned splicing variants was detected by real-time PCR. Luteinizing hormone applied to cultured Leydig cells resulted in expression of full-length LHR and the A and B isoforms, as well as secretion of testosterone, which first increased, then declined, and then increased further, with increased LH levels. The secretion of testosterone progressively increased with increasing LH, but the expression levels of LHR (FL, A, and B) did not increase correspondingly. We conclude that the LHR splicing pattern is complex in bovine Leydig cells, and that expression of full-length LHR and isoforms A and B changes when induced with LH.     

Direct regulating effects of transforming growth factor beta on the Leydig cell steroidogenesis in primary culture

The effect of transforming growth factor beta on testicular steroidogenesis was studied by using a model of immature porcine Leydig cells cultured in a chemically defined medium. Leydig cells were cultured in the presence of human or porcine purified TGF beta and the following parameters were measured: cell proliferation, LH/hCG binding, and hCG-stimulated steroid hormone productions (DHEA, DHEAS and testosterone). Whereas TGF beta from the two sources had no effect on Leydig cell multiplication, it markedly inhibited LH/hCG-stimulated DHEA and DHEAS in a time- and dose-dependent manner. The maximal inhibitory effect of this peptide on LH/hCG binding (65% decrease), hCG-stimulated DHEA (77% decrease) and DHEAS (92% decrease) productions was observed with 2 ng/ml for 48 h of treatment. In contrast, TGF beta exerted a biphasic effect on hCG-stimulated testosterone production: stimulating (110% increase) until 2 ng/ml and inhibiting (35% decrease) for higher concentrations. [125I]TGF beta was cross-linked to Leydig cells using disuccinimidyl suberate; cells affinity labelled with [125I]TGF beta exhibit a major labelled band of approx 280 kDa, which has the properties expected from a TGF beta receptor. These data demonstrate that TGF beta is a direct potent regulator of Leydig cell steroidogenic function and its effects are probably mediated via a specific receptor.     

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.     

Possible involvement of microtubules and microfilaments of the epididymal epithelial cells in 17beta-estradiol synthesis

The rat epididymal epithelial cells revealed features of steroidogenic cells and released 17beta-estradiol (E2) into the culture medium. In steroidogenic cells, elements of the cytoskeleton due to their influence on organelle distribution are implicated in the regulation of steroidogenesis. In the present study, the morphology of cultured epididymal epithelial cells in light, scanning and transmission electron microscopes was evaluated. The organization of microtubules and microfilaments revealed by fluorescence microscopy, and the concentration of E2 in cultured medium were also studied. The epididymal epithelial cells were cultured in different conditions: in the medium with or without exogenous testosterone (T) and in the co-culture with Leydig cells as a source of androgens. The cells in co-culture located close to Leydig cells were rich in glycogen, PAS-positive substances and lipid droplets, in higher amount than the cells cultured with addition of exogenous testosterone. Stress fibers and microtubules of epididymal epithelial cells cultured with exogenous T and in co-culture with Leydig cells presented typical structure, and numerous granular protrusions appeared on the surface of the cells. Disorganization of microtubules and shortening of stress fibers as well as the smooth cell surface deprived of granular protrusions were observed in the epididymal epithelial cells cultured without T. Change of the cytoskeleton organization caused by the absence of androgen in culture medium resulted in an increased E2 secretion.     

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.     

The ultrastructure of the cells of Leydig in the white-crowned sparrow (Zonotrichia leucophrys gambelii) in relation to plasma levels of luteinizing hormone and testosterone

In male White-crowned Sparrows subjected to 20 h daily photoperiods there is an approximately 3-fold increase in the plasma concentration of luteinizing hormone (LH) on the first long day after which a quasi-stable level is maintained for at least 42 days. This increase is followed by an increase in numbers of cells of Leydig and an enhancement of their steroidogenic features, a decrease in transitional interstitial cells, and an increase in plasma level of testosterone. With the decline in plasma LH, as photorefractoriness develops, the steroidogenic features of the cells of Leydig undergo disorganization. For as yet unexplainable reasons the plasma levels of testosterone decline before the decrease in plasma LH and before the degeneration of the steroidogenic features of the cells of Leydig.     

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.     

Evidence for a Sertoli cell, FSH-suppressible inhibiting factor(s) of testicular steroidogenic activity

By using a model of immature porcine Leydig and Sertoli cells cultured in serum free defined medium, we evidenced a paracrine control of Leydig cell steroidogenic activity by Sertoli cells via a secreted inhibiting protein(s). This protein(s), partially purified using gel filtration (M.W. 20,000-30,000) suppresses the steroidogenic responsiveness to LH/hCG by decreasing the specific LH/hCG binding (52% decrease) and hormone steroid biosynthesis (73% decrease) at a level(s) located between cAMP production and pregnenolone formation. The suppression of this inhibitor(s) by FSH, in a dose dependent manner, is one mechanism by which FSH "sensitizes" Leydig cell response to LH/hCG stimulation.     

Differences between the regulation of cholesterol side-chain cleavage in Leydig cells from mice and rats

A Leydig cell culture system has been used to study the in vitro modulation by luteinizing hormone (LH) of steroidogenesis in Leydig cells isolated from mice and immature rats. Mouse Leydig cells precultured for 24 h in the presence of increasing concentrations of LH (1 ng-1 microgram/ml) showed a dose-dependent decrease of the maximal LH-stimulated testosterone production. After pretreatment with 1 microgram LH/ml, maximal LH-stimulated testosterone production. After production in the presence of excess 20 alpha-hydroxycholesterol (a cholesterol side-chain cleavage substrate) were reduced to approx. 50% of control values. The possible site of action of LH is probably prior to pregnenolone, because testosterone production in the presence of excess pregnenolone was not affected by the LH pretreatment. Immature rat Leydig cells showed no decrease of maximal steroid production after 24 h culture in the presence of 1 microgram LH/ml. These results indicate that the regulation of the cholesterol side-chain cleavage activity during long-term LH action is different in mouse and rat Leydig cells. The properties of the cholesterol side-chain cleavage enzyme in mouse and rat Leydig cells were further investigated with different hydroxylated cholesterol derivatives as substrates. Steroid production by mouse Leydig cells in the presence of (22R)-22 hydroxycholesterol was similar as in the presence of LH. In contrast, steroidogenesis in rat Leydig cells in the presence of (22R)-22 hydroxycholesterol was at least 10-fold higher than in the presence of LH. It is concluded that the cholesterol side-chain cleaving enzyme in the mouse Leydig cell operates at its maximal capacity during short-term LH stimulation and can be inhibited after long-term LH action, whereas in the rat Leydig cell only a fraction of the potential activity is used during short-term LH stimulation, which is not affected during long-term LH action.     

Effect of luteinizing hormone deprivation in situ on steroidogenesis of rat Leydig cells purified by a multistep procedure

Depriving rats of luteinizing hormone (LH) causes Leydig cells to lose smooth endoplasmic reticulum and diminishes their P450 C17-hydroxylase/C17,20-lyase activity (Wing et al., 1984). LH administration to hypophysectomized rats prevents these changes in Leydig cell structure and function (Ewing and Zirkin, 1983). We adopted a multistep procedure of rat Leydig cell isolation to study the trophic effects of LH on steroidogenesis in the Leydig cell. Our method employs vascular perfusion, enzymatic dissociation, centrifugal elutriation, and Percoll gradient centrifugation. The purified Leydig cell fraction obtained after Percoll density-gradient centrifugation contains 95% well-preserved 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD)-staining cells with ultrastructural characteristics of Leydig cells. These Leydig cells produced 248 and 29 ng of testosterone/10(6) Leydig cells when incubated for 3 h with and without a maximally stimulating concentration of ovine LH. Purified Leydig cells obtained from control rats and rats treated with testosterone-estradiol (T-E) implants for 4 days to inhibit LH production were incubated with a saturating concentration (2 microns) of pregnenolone. Leydig cells from control and T-E-implanted rats produced 537 and 200 ng of testosterone/10(6) Leydig cells X 3 h, respectively, suggesting a defect in the steroidogenic reactions converting pregnenolone to testosterone in Leydig cells from T-E-implanted rats. By using rabbit antibodies to the P450 C17-hydroxylase/C17,20-lyase pig microsomal enzyme, immunoblots of one-dimensional sodium dodecyl sulfate polyacrylamide gels of Leydig cell microsomal protein from control and 4- and 12-day T-E implanted rats revealed a continued loss of enzyme as the period of LH withdrawal continues. These results show that Leydig cells from animals deprived of LH had diminished capacity to convert pregnenolone to testosterone and reduced P450 C17-hydroxylase/C17,20-lyase content.     

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.     

Identification of markers for precursor and leydig cell differentiation in the adult rat testis following ethane dimethyl sulphonate administration.

Administration of ethane dimethane sulphonate (EDS) to adult rats results in the destruction of all Leydig cells, followed by a complete regeneration. We investigated this regeneration process in more detail, using different markers for precursor and developing Leydig cells: the LH receptor, 3beta-hydroxysteroid dehydrogenase (3beta-HSD), transforming growth factor alpha (TGFalpha), and a new marker for Leydig cell maturation, relaxin-like factor (RLF). LH receptor immunoreactivity was found in Leydig cell-depleted testes at 3 and 8 days after EDS administration. The positive (precursor) cells had a mesenchymal-like morphology. The number of LH receptor-positive cells 8 days after EDS administration was 15 +/- 4 per 500 Sertoli cell nuclei. Fifteen days after EDS administration, the first new Leydig cells could be observed. These cells stained positively with both the antibodies against the LH receptor and 3beta-HSD, while some cells also stained positively for TGFalpha. After EDS administration, RLF mRNA disappeared from the testis and reappeared again at the time of the appearance of the first Leydig cells. Concomitant with the increase in the number of Leydig cells, the number of RLF-expressing cells increased. The observations of the present study give further support to the hypothesis that Leydig cell development in the prepubertal testis, and in the adult testis following EDS administration, takes place along the same cell lineage and suggest, therefore, that the adult EDS-treated rat can serve as a model for studying the adult-type Leydig cell development that normally occurs in the prepubertal rat testis.     

Developmental stages of fetal-type Leydig cells in prepubertal rats

Fetal Leydig cells were studied in rats during and after the perinatal-neonatal period by comparing changes in morphology, number and volume with changes in testicular steroids and serum luteinizing hormone (LH) concentration. Stereologic examination indicated regression of fetal Leydig cells in testis by showing that their total volume as well as the average cell volume decreased between prenatal day 20 and postnatal day 3. The total number and total volume of cells both increased between postnatal days 3 and 11 but the average cell volume did not change during the same time period. Determination of serum LH showed a close correlation between an increase in LH concentration and increases in total number and volume of cells. The combined number of fetal- and adult-type Leydig cells on day 20 was more than 20 times the number of fetal cells at 3 days of age. Electron microscopic analysis showed that fetal Leydig cells after birth formed conspicuous clusters, which were surrounded by a layer of envelope cells and extracellular material. Occasional dividing fetal Leydig cells and possible precursors of fetal or adult Leydig cells were observed. Mitoses of spindle-shaped pericordal cells were frequent during the neonatal period. During and after the second postnatal week fetal Leydig cells again showed signs of regression, indicated by disintegration of the cell clusters, a decrease in cell size, accumulation of collagen between the cells and a decrease in steroid content per cell.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hormonal secretion and enzyme activity of cultured roe-deer (Capreolus capreolus L.) Leydig cells, as measured by radio-immunological and histochemical assays

Leydig cells from roe-deer collected according to Steinberger's (1975) technique were cultured as monolayers in Leighton tubes for 10 days. Cultures were grown in medium 199 supplemented with 10% calf serum. Androgen and oestrogen secretion by Leydig cells into the culture medium was measured using appropriate radio-immunoassays. Using histochemical tests the activity of the following oxydoreductive enzymes in cultured Leydig cells was shown: delta 5, 3 beta-hydroxysteroid dehydrogenase (delta 5, 3 beta-HSD), 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD), succinate and lactate dehydrogenases (SDH and LDH). Strong activity of the enzymes investigated during the first 4 days of culture was observed. The androgen level was high throughout the second and fourth day of culture. A decrease in hormone secretion after day 4 occurred, and this was closely correlated with enzyme activity. The oestrogen level was very low during culture. The direct effect of the luteinizing hormone (LH) added into the culture medium caused an increase in not only enzyme activity but also androgen and oestrogen levels.     

Modulation and role of Ca2+ in LH and LHRH agonist action in rat Leydig cells

The results of our recent studies on purified rat Leydig cells indicate that there are no major qualitative differences in the stimulating effects of LH and LHRH agonists on steroidogenesis via mechanisms that are dependent on calcium. This was demonstrated by using inhibitors of calmodulin and the lipoxygenase pathways of arachidonic acid metabolism. Using the fluorescent indicator quin-2, it was shown that LH and LHRH agonist increase intracellular calcium levels; LH was more potent than LHRH agonist (max increase in concentrations obtained were 500 nM and 60 nM respectively). This difference was probably the result of a direct effect of cyclic AMP (whose production is stimulated by LH but not by LHRH) because cyclic AMP analogues were as potent as LH in increasing calcium levels. These studies indicate a major role for calcium in the control of steroidogenesis in testis Leydig cells.