Paracrine control of Leydig cell activity by FSH dependent proteins from Sertoli cells: an in vitro study

The regulating effect of follicle-stimulating hormone (FSH) on Leydig cell function was studied using a model of immature porcine Leydig and Sertoli cells cultured in a hormone supplemented defined medium. FSH pretreatment for 2 days of Leydig cells cultured alone was with no effect. FSH pretreatment of Leydig cells cocultured with Sertoli cells increases Leydig cell activity in an FSH dose-dependent manner with a maximal effect observed at 50 ng/ml porcine FSH (pFSH). Leydig cells cultured for 2 days in conditioned medium (CM) by FSH stimulated (FSH-CM) Sertoli cells, as compared to CM by unstimulated (control) (C-CM) Sertoli cells show an increase of their activity with a maximal effect observed at 50 ng/ml pFSH. Leydig cells cultured in CM as compared to non CM, show a marked development of organelles (smooth endoplasmic reticulum and mitochondria) involved in the steroidogenic activity. The activity of FSH-CM as compared to C-CM on Leydig cell function was non dialyzable and trypsin sensitive. These data suggest that Sertoli cells exert a regulatory action on Leydig cell steroidogenic activity via FSH dependent secreted proteins.     

Specific destruction of Leydig cells in mature rats after in vivo administration of ethane dimethyl sulfonate

Effects of ethane dimethyl sulfonate (EDS) on Leydig cells have been studied using the following parameters: morphology, histochemistry of 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and esterase, quantitative activity of esterase, testosterone concentrations in plasma, and steroid production by isolated interstitial cells in vitro. Degenerating Leydig cells were observed within 16 h after the injection of mature rats with EDS (75 mg/kg body weight). At that time the testosterone concentration in plasma and the specific activity of esterase in testis tissue were decreased to approximately 35% and 60% of the control value, respectively. At 48 h after EDS only a few normal Leydig cells were left and the plasma testosterone concentration was less than 5% of the control value. The specific activity of esterase in total testis tissue was similar to the activity of dissected tubules from untreated rats. At 72 h no Leydig cells could be detected and no 3 beta-HSD and esterase-positive cells were present. At that time macrophages were still present in the interstitium and the appearance of the spermatogenic epithelium was normal, but 1 wk after EDS the elongation of spermatids was disturbed, probably due to a lack of testosterone. In some of the animals the cytotoxic effects of EDS on Leydig cells could be partly inhibited by human chorionic gonadotropin treatment. The basal steroid production by interstitial cells from mature rats 72 h after EDS was not significant and no stimulation by LH was observed, whereas no effect of EDS could be detected on steroid production by interstitial cells isolated from immature rats and mice 72 h after treatment. Other compounds with similar structures, such as butane dimethyl sulfonate (busulfan) and ethane methyl sulfonate (EMS) had no effect on Leydig cells from mature rats. It is concluded that EDS specifically destroys Leydig cells in mature rats.     

Interactions between immature porcine Leydig and Sertoli cells in vitro

Summary Interactions between Leydig and Sertoli cells, as well as a stimulatory effect of FSH on Leydig cell activity, have been reported in many studies. In order to investigate these interactions, the ultrastructure of immature pig Leydig cells under different culture conditions has been studied. When cultured alone in a chemically defined medium, there is a marked regression of the Leydig cell smooth endoplasmic reticulum and a swelling of the mitochondria. Addition of FSH or hCG does not prevent these phenomena. Co-culturing of Leydig cells with Sertoli cells from the same animal maintains the smooth endoplasmic reticulum at the level seen in vivo and in freshly isolated Leydig cells. The addition of FSH to the co-culture stimulates its development and increases Leydig cell activity, as assessed by an increase in hCG binding sites and an increased steroidogenic response to hCG. These results suggest that Sertoli cells exert a trophic effect on Leydig cells, and that the stimulatory effect of FSH on Leydig cell function is mediated via the Sertoli cells. These results reinforce the concept of a local regulatory control of Leydig cell steroidogenesis.Post-Doctoral fellow supported by CIRIT, Generalitat de Catalunya, Spain     

Regulation of pig Leydig cell aromatase activity by gonadotropins and Sertoli cells

The present work was done to investigate the cell localization of testicular aromatase activity and its regulation in immature pig testis using an in vitro model. Leydig cells and Sertoli cells were isolated from immature pig testes and cultured alone or together in the absence or presence of human chorionic gonadotropin (hCG) or porcine follicle-stimulating hormone (pFSH) for 2 days. At the end of incubation, the amounts of testosterone (T), estrone sulfate (E1S) and estradiol (E2) were measured. Then the cells were incubated for 4 h in the presence of saturating concentrations of delta 4-androstenedione (3 microM) and the amounts of E1S and E2 were measured again (aromatase activity). The ability of Sertoli cells to produce estrogens was very low and neither hCG nor pFSH had any significant effect. hCG stimulated, in a dose-dependent manner, the secretion of T and E1S by Leydig cells cultured alone as well as the aromatase activity of these cells. The main estrogen produced by Leydig cells was E1S. pFSH also stimulated the above parameters of Leydig cell function; this may have been due to the contamination of this hormone with luteinizing hormone (LH). Coculture of Leydig cells with Sertoli cells without gonadotropins had very small effects on T and E1S production and on aromatase activity. However, treatment of coculture with increasing concentrations of hCG had a dramatic effect on Leydig cell functions. For each hCG concentration, the amounts of T and E1S secreted, as well as the aromatase activity of the coculture, were 2- to 3-fold higher than those of Leydig cells cultured alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

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

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

Paracrine regulation of testicular function

Data from several experimental approaches have been reviewed and the findings clearly indicate the existence of multiple interactions between testicular cells and the potential role of these interactions in the paracrine control of testicular functions. Both testicular interstitial fluid and spent media from cultured Sertoli cells had an acute steroidogenic effect on Leydig cells, and this effect is not species specific. The secretion of this steroidogenic factor(s), which is probably a protein, is enhanced by previous FSH treatment of Sertoli cells. Coculture for 2-3 days of pig Leydig cells with homologous or heterologous Sertoli cells enhances Leydig cell specific functions (hCG receptor number and hCG responsiveness) and induces Leydig cell hypertrophy. A similar but less pronounced trophic effect is seen when Leydig cells are cultured with spent media from Sertoli cells cultured in the presence of FSH and high concentrations of insulin, but the spent media from Sertoli cells cultured in the absence of these two hormones inhibits Leydig cell specific functions. Somatomedin-C might play an important role in the positive trophic effect of Sertoli cells on Leydig cells, since this peptide is secreted by Sertoli cells and it has trophic effects on the specific function of Leydig cells. Moreover, Sertoli cells, probably through a diffusible factor and cell-to-cell contacts, control the multiplication, meiotic reduction and maturation of germ cells. In turn, the activity of Sertoli cells is modulated by the stage of neighbouring germ cells. Thus, if a normal Sertoli cell function (which depends not only on FSH but also on Leydig and myoid cell secretory products) is an absolute requirement for germ cell multiplication and maturation, these cells, in turn, cyclically regulate Sertoli cell function and through these cells the size and probably the function of Leydig cells.     

Environmental stress alters the developmental pattern of delta 5-3 beta-hydroxysteroid dehydrogenase activity in Leydig cells of fetal rats: a quantitative cytochemical study

Quantitative cytochemistry was used to determine the effect of subjecting pregnant rats to environmental stress on the activity of delta 5-3 beta hydroxysteroid dehydrogenase (3 beta-HSD) in Leydig cells of their fetuses. Enzyme activity was measured by microspectrophotometry in individual Leydig cells in cryostat sections of fetal testes on Days 16-21 postconception. Fetuses of stressed mothers lacked the peak of enzyme activity on Days 18 and 19 of gestation that is characteristic of Leydig cells of normal fetuses at this time. In addition, both before and after these 2 days, 3 beta-HSD activity in Leydig cells of stressed fetuses was significantly higher than normal. The altered developmental pattern of 3 beta-HSD activity in the stressed fetuses largely corresponds to the changes in plasma testosterone found previously in male fetuses of mothers exposed to the same regimen of stress. Thus, in the fetal Leydig cell, the activity of 3 beta-HSD, a key steroidogenic enzyme, can be modified by environmental stress, and provides an index of steroidogenic activity of the fetal testes and of the titers of circulating testosterone.     

A partial characterization of a Sertoli cell-secreted protein stimulating Leydig cell testosterone production.

To examine whether immature rat Sertoli cells in culture secrete a factor(s) which stimulates testosterone production by mature mouse Leydig cells, Sertoli cell-enriched cultures were prepared from 3-week-old male rats with trypsin and collagenase. Sertoli cells were plated at an initial density of 3-5 x 10(6) cells/35 mm well and cultured in 3 ml serum free media supplemented with insulin (10 micrograms/ml). Sertoli cell culture medium (SCCM) collected every 3rd day was added to Leydig cells (10(6) cells in 1 ml of MEM with 2% steroid-free FCS) prepared from 10-week-old mice by mechanical separation and incubated for 3 h at 34 degrees C. Secreted testosterone was determined by RIA. SCCM 15 times concentrated by Amicon YM10 membrane demonstrated a dose-dependent stimulation of testosterone production, whereas there was no effect on testosterone secretion when Leydig cells were maximally stimulated by LH. Leydig cell stimulating activity was retained by both a dialysis membrane with a pore size of 24 A and an ultrafiltration membrane with a molecular weight cut-off of 10 kDa. However, activity was reduced by heating at 60 degrees C for 30 min and almost lost after incubation with 0.1% trypsin for 1 h at 37 degrees C. This activity was not retained by means of a Con A-Agarose column and was demonstrated only in break-through fractions. HPLC gel filtration of a 15 times concentrated SCCM preparation on a TSK gel G3000SW revealed Leydig cell-stimulating activity at approximately 13 kDa.(ABSTRACT TRUNCATED AT 250 WORDS)     

Short-term stimulatory effect of Sertoli cell conditioned medium on Leydig cell steroidogenesis is not mediated by inhibin

Addition of concentrated rat Sertoli cell conditioned medium (rSCCM) to isolated Leydig cells from immature rats stimulated steroid production more than 13-fold within 4 h. LH-stimulated steroidogenesis was not enhanced by addition of rSCCM. The biological activity of the concentrated rSCCM was higher after incubation of Sertoli cells with FSH, whereas FSH alone did not stimulate steroid production. This effect of rSCCM was not due to inhibin, since highly purified 32 kDa rat inhibin, in doses equivalent to those present in rSCCM, had no effect on steroidogenesis during the 4 h incubation period. Furthermore, inhibin could be separated from the Leydig cell stimulating factor by anion-exchange chromatography. These results indicate a short-term paracrine control of Leydig cell steroidogenesis by Sertoli cell derived factors, which differ from inhibin.     

Evidence for the requirement of proteolysis in LH stimulated cyclic AMP production and steroidogenesis in Leydig cells.

We have investigated the effect of protease activity on cyclic AMP production and steroidogenesis in rat testis, mouse testis and mouse tumour Leydig (MA10) cells. LH-, dibutyryl cyclic AMP-, and forskolin-stimulated steroidogenesis, but not 22R(OH) cholesterol conversion to pregnenolone, was inhibited by protease inhibitors. In mouse Leydig cells, LH but not forskolin or cholera toxin stimulated cyclic AMP production was inhibited by protease inhibitors. These results suggest that steroidogenesis in Leydig cells requires proteolysis before the conversion of cholesterol to pregnenolone. In the mouse but not rat Leydig cells, LH-stimulated cyclic AMP production is also dependent on proteolysis.     

Interaction between Leydig and Sertoli cells in vitro

The interaction between Leydig and Sertoli cells grown in co-culture was studied. After 3 to 4 days in culture, Leydig and Sertoli cells formed monolayers. To distinguish functional Leydig cells from Sertoli cells, a histochemical test for delta 5,3 beta-HSD activity was performed, and cells which showed a positive reaction were defined as Leydig cells, in contrast to Sertoli cells which did not manifest enzyme activity. Testosterone and oestradiol levels in culture media were determined by radioimmunological assays. Sertoli cells in co-culture showed a tendency to organize themselves as in vivo, forming a kind of pseudo-wall of the tubule. This process becomes more evident with the time of culture. Co-cultures secreted more androgens than Leydig cells alone and more oestradiol than Sertoli cells alone. This influence was strengthened by the presence of follicle stimulating hormone (FSH) in the culture medium, which was not the case in cultures of Leydig and Sertoli cells cultured separately.     

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.     

Paracrine role of Sertoli cells

Data from several experimental approaches strongly suggest that Sertoli cells exert a paracrine control of the two main testicular functions, androgen secretion and spermatogenesis. Further evidence supporting this role of Sertoli cells was obtained by coculture of Sertoli cells with other testicular cells. Coculture of pig or rat Sertoli cells with pig Leydig cells produces an increase in the hCG receptor number and an increase in the steroidogenic activity of Leydig cells. Pretreatment with FSH further increases the values of these two parameters. These biochemical changes were associated with ultrastructural changes in Leydig cells. The effects of Sertoli cells on Leydig cells depend upon the ratio of the two cells and on the substrate in which the cells are cultured. Moreover, Leydig cells produce an increase in the FSH receptor number and in the FSH stimulation of plasminogen activator production by Sertoli cells. Coculture of rat or pig Sertoli cells with rat germ cells, induces an increase in the RNA and DNA biosynthetic activities of germ cells. Most of the stimulatory effects seemed to be mediated by diffusible factors, secreted by Sertoli cells, but full expression of the stimulatory action was observed when germ cells were in contact with other cells. In this coculture system, a fraction of rat germ cells containing mainly mature forms of spermatocytes inhibited rat Sertoli cell RNA and DNA synthesis, but had no effect on pig Sertoli cells. On the contrary, a fraction of rat germ cells richer in spermatogonias and preleptotene spermatocytes, stimulated rat Sertoli cell DNA synthesis but was without effect on pig Sertoli cells. These results clearly show that the stimulatory effects of Sertoli cells on Leydig and on germ cells which are not species specific are mediated mainly by diffusible factors, the secretion of which is regulates by FSH.     

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.     

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.     

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.     

The influence of interleukin-1 and interleukin-6 on expression of proteins involved in steroidogenesis in Leydig cells and on their apoptosis or necrosis in vitro

This paper presents a study on the expression of proteins involved in steroidogenesis in rat Leydig cells: StAR protein and aromatase, in relation to the age of animals and to the influence of interleukin-1 and interleukin-6. In addition, their effect on apoptosis and damage of Leydig cells was investigated. Leydig cells were isolated from rats at certain age intervals and exposed to different concentrations of the above-mentioned cytokines. Next, total RNA was isolated from Leydig cells and RT-PCR with primers specific for rat StAR protein and aromatase was performed. The products were analysed by agarose gel electrophoresis. Leydig cells were also stained with propidium iodide and Hoechst 33342 to estimate the percentage of apoptotic or necrotic cells. The results seem to confirm the role of interleukins in the control of expression of enzymes and regulatory factors involved in steroidogenesis in rat Leydig cells, and in the regulation of their apoptosis and necrosis. The effect of the studied interleukins on Leydig cells is exerted during development and after adolescence.