Adenosine 3',5'-monophosphate and testosterone responses of normal and desensitized Leydig cells to forskolin

Forskolin has a potent stimulatory effect on both cyclic AMP and testosterone formation by purified Leydig cells. Forskolin also markedly enhanced hCG-induced cyclic AMP formation, but maximal testosterone production remained unaltered. Cyclic AMP and testosterone responses of desensitized Leydig cells to in vitro hCG stimulation were completely lost. Cholera toxin-induced cyclic AMP formation was also reduced. However, forskolin was able to stimulate a 3.4-fold increment in cyclic AMP formation and potentiate hCG-induced cyclic AMP response by desensitized Leydig cells. The absolute cyclic AMP levels were significantly lower than in normal control cells. These results suggest that the catalytic unit remains intact in desensitized Leydig cells and the coupling between N-protein and catalytic unit is impaired. The N-protein is required for full expression of maximal response of Leydig cells to forskolin.     

Effect of serum and serum lipoproteins on testosterone production by adult rat Leydig cells in vitro.

The effect of serum factors other than luteinizing hormone on Leydig cell testosterone secretion was examined using an in vitro bioassay system based on the stimulation of purified adult rat Leydig cells during a 20 h incubation in the presence of a maximal dose of human chorionic gonadotrophin (hCG). Charcoal-extracted serum and testicular interstitial fluid (IF) from normal adult male rats were separated into lipoprotein and lipoprotein-deficient fractions by density ultracentrifugation. Stimulatory bioactivity was found in the lipoprotein fraction of both serum and IF, although the levels of lipoprotein and corresponding bioactivity recovered from IF were significantly lower (25%) than those of serum. There was no difference between the effects of serum lipoproteins on Leydig cell testosterone production stimulated by either hCG or dibutyryl cAMP. In time-course studies, the serum lipoprotein fraction had no effect on hCG-stimulated testosterone production in vitro at 3.0 or 6.0 h, but partially prevented the normal decline in hCG-stimulated testosterone production after 6.0 h. In contrast, unfractionated serum was stimulatory at all time-points. In the absence of hCG, the lipoprotein fraction was stimulatory at both 6.0 and 20 h, although not at 3.0 h. The lipoprotein-deficient protein fraction of serum had no effect on hCG-stimulated testosterone production alone, but significantly enhanced the bioactivity of the lipoprotein fraction, and caused a dose-dependent stimulation of testosterone production in the presence of a constant concentration of serum lipoproteins. Both a stimulatory peak of activity (apparent MW 40-80 kDa), and a large MW (> 100 kDa) inhibitor of testosterone production were identified in serum after fractionation by gel filtration (Sephadex G-100). The data indicate that (i) the stimulatory effect of serum on short-term hCG-stimulated Leydig cell testosterone production in vitro is predominantly due to the serum lipoprotein fraction, possibly by providing additional precursors for testosterone synthesis, (ii) the biological activity of the lipoproteins is influenced by both stimulatory and inhibitory serum proteins in addition to luteinizing hormone, and (iii) that serum lipoproteins may be involved in supporting Leydig cell steroidogenesis in vivo.     

Expression and microvillar localization of scavenger receptor class B, type I (SR-BI) and selective cholesteryl ester uptake in Leydig cells from rat testis

This study investigates the relationship between the high density lipoprotein (HDL) receptor (scavenger receptors, SR-BI and SR-BII), selective lipoprotein-cholesteryl ester uptake, and testosterone production in Leydig cells of control, hypocholesterolemic and gonadotrophic hormone (hCG) treated rats. Leydig cells from mature control rats show poor efficiency in incorporation of labeled HDL-cholesteryl esters into testosterone, poor selective uptake of lipoprotein lipids overall, and a dramatic reduction of circulating levels of lipoproteins has no apparent effect on testosterone production or expression of intracellular enzymes synthesizing cholesterol. Leydig cells from control rats show minimal levels of SR-BI and SR-BII. However, similarly aged rats treated with hCG for several days undergo changes consistent with hormone-desensitization. Despite the resulting low levels of testosterone production, SR-BI levels are dramatically increased, Leydig cells now efficiently internalize HDL-supplied cholesteryl esters by the selective cholesterol uptake process, and various other cholesterol-sensitive genes of the cells are up-regulated. Only SR-BII expression remains negligible and unchanged throughout this period. It is of interest that Leydig cell SR-BI of hCG-treated rats is localized in surface microvilli, but is present also in an elaborate and complex channel system within the cytoplasm of the cells. In summary, Leydig cells differ from other rat steroidogenic cells in not depending on exogenous lipoprotein-cholesterol during periods of normal steroid hormone production. However, trophic hormone desensitization is accompanied by increased Leydig cell SR-BI expression and increased selective HDL-cholesteryl ester uptake, presumably in preparation for renewed testosterone production.     

Regulation of gonadotropin receptors, gonadotropin responsiveness, and cell multiplication by somatomedin-C and insulin in cultured pig Leydig cells

We have investigated the effects of insulin and somatomedin-C/insulinlike growth factor I(Sm-C) in purified porcine Leydig cells in vitro on gonadotrophins (hCG) receptor number, hCG responsiveness (cAMP and testosterone production), and thymidine incorporation into DNA. Leydig cells cultured in a serum-free medium containing transferrin, vitamin E, and insulin (5 micrograms/ml) maintained fairly constant both hCG receptors and hCG responsiveness. When they were cultured for 3 days in the same medium without insulin, there was a dramatic decline (more than 80%) in both hCG receptor number and hCG responsiveness. However the cAMP but not the testosterone response to forskolin was normal. Both insulin and Sm-C at nanomolar concentrations prevent the decline of both hCG receptors and hCG-induced cAMP production. This effect of both peptides was dose dependent with an ED50 of about 1 ng/ml and 5 ng/ml for SM-C and insulin, respectively. Insulin and Sm-C had no additive effect on these parameters. At nanomolar concentrations, Sm-C and insulin enhanced hCG-induced testosterone production but the effect of Sm-C was significantly higher than that of insulin. However, the effect of insulin at higher concentrations (5 micrograms/ml) was significantly higher than that of Sm-C at 50 ng/ml. In contrast, at nanomolar concentrations only Sm-C stimulated [3H]-thymidine incorporation into DNA and cell multiplication, the stimulatory effect of insulin on these parameters, was seen only at micromolar concentrations. These results indicate that both Sm-C and insulin acting through their own receptors increase Leydig cell steroidogenic responsiveness to hCG by increasing hCG receptor number and improving some step beyond cAMP formation. In contrast, the mitogenic effects of insulin are mediated only through Sm-C receptors.     

Interferon-gamma inhibits steroidogenesis and accumulation of mRNA of the steroidogenic enzymes P450scc and P450c17 in cultured porcine Leydig cells

The inhibitory effects of recombinant porcine interferon-gamma (IFN gamma) on human CG (hCG)-stimulated testosterone production, and on mRNA concentrations of cholesterol side-chain cleavage (P450scc) and 17 alpha-hydroxylase/C17-20lyase (P450c 17) were investigated using porcine primary Leydig cell culture as a model. After preincubation of Leydig cells for 24 h with 1000 pM IFN gamma, hCG-stimulated (10 ng/ml, 2 h) testosterone production was inhibited by 50%, whereas no significant changes were seen in hCG-stimulated cAMP production. Incubation with 10 microM 5-cholestene-3 beta,22(R)-diol or 10 microM 5-cholestene-3 beta,20 alpha-diol together with hCG (10 ng/ml, 2 h) reversed most of the inhibitory effect of IFN gamma, suggesting that IFN gamma inhibits P450scc activity, possibly by inhibiting the substrate (cholesterol) availability for P450scc. Incubation with IFN gamma also decreased basal concentrations of P450scc (45%) and P450c 17 (35%) mRNA, although these changes probably did not contribute to the decreased testosterone production. Long-term treatment with hCG (100 ng/ml, 24 h) increased P450scc mRNA (3- to 4-fold) and P450c 17 mRNA (4- to 5-fold) concentrations. Simultaneous treatment with IFN gamma attenuated these hCG-induced increases in P450scc mRNA (50%) and P450c 17 mRNA (40-100%) concentrations, as well as in testosterone production (77%). This inhibition of testosterone production could only be partly reversed by the hydroxylated cholesterol derivatives. This suggests that in addition to possible suppression of cholesterol availability, decreased P450scc and/or P450c 17 activities (through decreased mRNA concentrations) were also involved in the IFN gamma suppressed steroidogenic capacity of porcine Leydig cells during long-term hCG stimulation.     

Role of proteoglycans on testosterone synthesis by purified Leydig cells from immature and mature rats.

In order to characterize an involvement of proteoglycans (PG) in the regulation of Leydig cell function, we have examined the effects of para-nitrophenyl-beta-D-xyloside (PNPX), a specific inhibitor of PG synthesis and para-nitrophenyl-beta-D-galactoside (PNPG), an inefficient structural analogue, on testosterone production by purified Leydig cells from immature and mature rats, in the presence or not of various concentrations of hCG during 24 h. Whatever the age, the addition of PNPX induces a decrease of [35S] and [3H] incorporations into cell layer associated-PG; these latter being less numerous (-50 and -25%, respectively in immature and mature rat), and less sulfated (-40%) when compared to control Leydig cells. In immature Leydig cells, the inhibition of PG synthesis decreases both the basal and weakly stimulable-hCG or -(Bu)2cAMP or -LH testosterone synthesis. In mature Leydig cells, the PG inhibition has no effect on testosterone production both in the absence of hCG and in the presence of weak amounts of hCG but increases it in the presence of subsaturating hCG concentrations. Whatever the age, the inhibition of PG synthesis is ineffective in the presence of saturating amounts of either hCG or (Bu)2cAMP. These effects are maintained in the presence of MIX, PMA, but are not observed in the presence of 22R-hydroxycholesterol. Therefore, our results suggest that in rat Leydig cells, the inhibition of PG synthesis affects the signal transduction at a step distal to cyclic AMP and more precisely, the cholesterol supply to the mitochondria by acting on its cellular distribution (free and esterified cholesterol).     

Corticotropin-releasing factor receptors and actions in rat Leydig cells

Rat Leydig cells possess functional high affinity receptors for corticotropin-releasing factor (CRF). CRF inhibited human chorionic gonadotropin (hCG)-induced androgen production in cultured fetal and adult Leydig cells in a dose-dependent manner, but it had no effect on basal testosterone secretion. Comparable inhibitory effects of CRF were observed in the presence or absence of 3-isobutyl-1-methylxanthine. CRF treatment caused a marked reduction of steroid precursors of the androgen pathway (from pregnenolone to testosterone) during gonadotropin stimulation, but it did not influence their basal levels. The inhibitory action of CRF on hCG-induced steroidogenesis was fully reversed by 8-bromo-cAMP but was not affected by pertussis toxin. The action of CRF was rapid; and it was blocked by coincubation with anti-CRF antibody. CRF caused no changes in hCG binding to Leydig cells, and in contrast to other target tissues, CRF did not stimulate cAMP production, indicating that CRF receptors are not coupled to Gs in Leydig cells. These studies have demonstrated that CRF-induced inhibition of the acute steroidogenic action of hCG is exerted at sites related to receptor/cyclase coupling or cAMP formation. The inhibitory effects of CRF in the Leydig cell do not occur through the Gi unit of adenylate cyclase, but could involve pertussis toxin-insensitive G protein(s). These observations demonstrate that CRF has a novel and potent antireproductive effect at the testicular level. Since CRF is synthesized in the testis and is present in Leydig cells, it is likely that locally produced CRF could exert negative autocrine modulation on the stimulatory action of luteinizing hormone on Leydig cell function.     

Stimulatory and inhibitory effects of protein kinase C activation and calcium ionophore on cultured pig Leydig cells

The acute and the long-term (24 h) effects of protein kinase C activators, phorbol 12 myristate 13-acetate (PMA) and 1-oleoyl-2-acetyl-sn-glycerol, and the calcium ionophore A23187 on cultured pig Leydig cell functions were investigated. None of these drugs modified basal cAMP production, but they induced a small (3-4-fold) increase in testosterone secretion. The stimulatory effects of human choriogonadotropin (hCG; 1 nM) on both cAMP and testosterone productions were inhibited by short-term incubation with these drugs. In addition, they suppressed the stimulation of testosterone output by forskolin and 8-bromo-adenosine 3',5'-monophosphate, whereas the forskolin-dependent cAMP production was unaffected. The inhibitory effects of PMA on hCG stimulation of both cAMP and testosterone were due mainly to a decrease of the Vmax without modification of the ED50. Moreover, PMA did not modify the binding of 125I-hCG. Pretreatment of Leydig cells with the three drugs for 24 h induced more pronounced modifications, such as a reduction in the number of hCG binding sites and a decreased responsiveness to hCG and forskolin, the testosterone production being drastically reduced. The effects of PMA were dose- and time-dependent; however, the concentration of PMA required to induce half-maximal effects on hCG receptors (10 nM) was about one order of magnitude higher than those required to reduce cAMP and testosterone productions. Further, the inhibitory effects on cAMP and testosterone secretions appeared within the first 3 h, whereas the hCG receptor number remained constant for at least 8 h. It appears therefore, that the main alteration responsible for the steroidogenic refractoriness of PMA-treated Leydig cells is located beyond cAMP formation. Moreover, since conversion of exogenous pregnenolone to testosterone by control and PMA-treated cells was similar, the alteration was probably located before pregnenolone formation. Kinetic studies with 125I-hCG showed that the rate of internalization of the hormone-receptor complexes was similar in control cells and in PMA-treated cells, suggesting that the decline in receptor number observed in the latter group after an 8-h delay is not due to an increased rate of internalization nor to sequestration of the internalized receptors inside the cells. Since cycloheximide blocked the effects of PMA on hCG down-regulation, it is likely that the phorbol esters and 1-oleoyl-2-acetyl-sn-glycerol induce the synthesis of some proteins which blocked the recycling of internalized receptors. A similar hypothesis has been put forward recently to explain the hCG-induced down regulation.(ABSTRACT TRUNCATED AT 400 WORDS)     

c-myb对人绒毛膜促性腺激素诱导的大鼠睾丸间质细胞睾酮分泌的影响

采用离体细胞体外孵育法,观察反义c-myb寡脱氧核苷酸(oligodeoxynucletides,ODN)对人绒毛膜促性隙激素(humanchorionic-gonadotropin hormone,hCG)诱导的人鼠间质细胞睾酮分泌的影响,并进一步探讨了外源性二丁酰cAMP(dbcAMP)、Ca^2 以及蛋白质抑制剂放线菌酮(cycloheximide,CYX)对间质细胞中c-Myb蛋白表达和睾酮分泌的作用。结果表明,反义c-myb ODN呈剂量依赖性地抑制hCG诱导的离体间质细胞的睾酮分泌,同时使间质细胞中c-Myb蛋白免疫组化染色下降：而无义tat ODN没有相应的作用。100μmol／L的dbc AMP可进一步促使hCG秀导的间质细胞分泌睾酮,并且使间质细胞中c-Myb蛋白免疫组化染色IOD值升高,与hCG组相比,具有统计学意义。钙离子通道阻断剂维拉帕米(10μmol／L)和蛋白质抑制剂放线菌酮(50μg／ml)可使hCG诱导的大鼠间质细胞的睾酮分泌下降,并使间质细胞的c-Myb蛋白免疫组化染色降低。该结果说明c-myb参与hCG诱导的大鼠间质细胞睾酮分泌作用。     

Stimulation of progesterone production by phorbol-12-myristate-13-acetate in MA-10 Leydig tumor cells

The tumor-promoting phorbol ester, phorbol-12-myristate-13-acetate (PMA) markedly stimulated progesterone production in MA-10 Leydig tumor cells. A slight but significant increase (35%) in the activity of the cholesterol side-chain cleavage (CSCC) enzyme was observed in mitochondria isolated from the PMA-treated MA-10 Leydig cells when compared to mitochondria isolated from non-treated cells. However, this stimulation of CSCC activity appears to be of limited importance when compared to the 240-fold increase observed in progesterone production following PMA stimulation. In contrast, the inactive phorbol ester 4 alpha-phorbol-12,13-didecanoate (alpha-PD) had no effect on either progesterone production or CSCC activity. PMA had no effect on the conversion of 25-hydroxycholesterol and 22R-hydroxycholesterol into progesterone suggesting that one of the mechanism(s) of PMA action may involve the delivery of cholesterol to the mitochondria and/or the affinity of cholesterol with cytochrome P-450scc. Stimulation of steroidogenesis by PMA was also shown to be inhibited by cycloheximide. When PMA was added together with a submaximal dose of hCG, hCG-stimulated steroidogenesis was inhibited. However, at a maximal dose of human chorionic gonadotropin (hCG), PMA inhibited steroid synthesis at 1 and 2 h but had no significant effect at 3 h. Conversely, PMA had an additive effect on cAMP induced steroidogenesis. It was further demonstrated that PMA resulted in a decrease in the hCG-induced accumulation of cAMP.(ABSTRACT TRUNCATED AT 250 WORDS)     

The Leydig cell MEK/ERK pathway is critical for maintaining a functional population of adult Leydig cells and for fertility

MAPK kinase (MEK)1 and MEK2 were deleted from Leydig cells by crossing Mek1(f/f);Mek2(-/-) and Cyp17iCre mice. Primary cultures of Leydig cell from mice of the appropriate genotype (Mek1(f/f);Mek2(-/-);iCre(+)) show decreased, but still detectable, MEK1 expression and decreased or absent ERK1/2 phosphorylation when stimulated with epidermal growth factor, Kit ligand, cAMP, or human choriogonadotropin (hCG). The body or testicular weights of Mek1(f/f);Mek2(-/-);iCre(+) mice are not significantly affected, but the testis have fewer Leydig cells. The Leydig cell hypoplasia is paralleled by decreased testicular expression of several Leydig cell markers, such as the lutropin receptor, steroidogenic acute regulatory protein, cholesterol side chain cleavage enzyme, 17α-hydroxylase, and estrogen sulfotransferase. The expression of Sertoli or germ cell markers, as well as the shape, size, and cellular composition of the seminiferous tubules, are not affected. cAMP accumulation in response to hCG stimulation in primary cultures of Leydig cells from Mek1(f/f);Mek2(-/-);iCre(+) mice is normal, but basal testosterone and testosterone syntheses provoked by addition of hCG or a cAMP analog, or by addition of substrates such as 22-hydroxycholesterol or pregnenolone, are barely detectable. The Mek1(f/f);Mek2(-/-);iCre(+) males show decreased intratesticular testosterone and display several signs of hypoandrogenemia, such as elevated serum LH, decreased expression of two renal androgen-responsive genes, and decreased seminal vesicle weight. Also, in spite of normal sperm number and motility, the Mek1(f/f);Mek2(-/-);iCre(+) mice show reduced fertility. These studies show that deletion of MEK1/2 in Leydig cells results in Leydig cell hypoplasia, hypoandrogenemia, and reduced fertility.     

Stimulation of cholesterol side-chain cleavage enzyme activity by cAMP and hCG in MA-10 Leydig tumor cells

Using a cloned Leydig tumor cell line (designated MA-10), we have studied the activity of cholesterol side-chain (CSCC) enzyme, the rate-determining step in steroidogenesis, in mitochondria isolated from cells pretreated either with human chorionic gonadotropin (hCG) or dibutyryl cyclic adenosine monophosphate (dbcAMP). Results showed a slight but significant increase in CSCC activity with treatment by cAMP (25% increase) and hCG (60% increase), as compared to mitochondria isolated from nontreated control cells. However, this stimulation of CSCC activity appears to be of limited significance when compared to the approximately 1000-fold or greater increase observed in progesterone production in the presence of hCG or dbcAMP. On the other hand, unstimulated MA-10 cells or isolated mitochondria efficiently converted 25-hydroxycholesterol and 22R-hydroxycholesterol into progesterone, and this conversion was not affected by cycloheximide. The addition of cholesterol to intact cells or to isolated mitochondria did not affect progesterone production. Our observations clearly indicate that given the proper hydroxy substrates (22R-hydroxycholesterol or 25-hydroxycholesterol), MA-10 Leydig cells are able to convert them into progesterone without any stimulation by steroidogenic stimuli, i.e. cAMP or hCG. Since MA-10 Leydig cells can efficiently convert 22R-hydroxycholesterol--an intermediate in CSCC reaction--into progesterone, these results suggest that the key regulatory step in the mechanism of trophic hormone-stimulated steroid production is the first hydroxylation step of the 3 sequential monooxygenation reactions involved in the conversion of cholesterol to pregnenolone.     

Specific low density lipoprotein receptors in pig Leydig cells. Role of this lipoprotein in cultured Leydig cells steroidogenesis

Freshly prepared and cultured pig Leydig cells were shown to possess specific binding sites for iodinated human low density lipoprotein (LDL). Binding of LDL was followed by internalisation. Both processes were inhibited by unlabelled LDL but not high density lipoprotein (HDL). The number of LDL binding sites was enhanced by prior treatment of cultured cells with hCG. Addition of LDL to the culture medium caused a large enhancement of the rate of steroid secretion (testosterone and dehydroepiandrosterone sulfate) both in the presence or absence of hCG. On the contrary, HDL decreased the steroid output, both in the presence or absence of hCG. We concluded that LDL cholesterol rather than cholesterol synthesized $\text{de novo}$ by the cells, is the major substrate for androgen production by pig Leydig cells in culture.     

Phorbol ester causes desensitization of gonadotropin-responsive adenylate cyclase in a murine Leydig tumor cell line

The murine Leydig tumor cell line, MLTC-1, contains gonadotropin receptors and a gonadotropin-responsive adenylate cyclase system that became refractory (desensitized) when exposed to human chorionic gonadotropin (hCG). MLTC-1 cells also contain phorbol ester receptors with a Kd of 53 nM for [3H]phorbol dibutyrate. Exposing cells to 12-O-tetradecanoyl phorbol 13-acetate (TPA) also causes desensitization of the hCG response. TPA-induced desensitization was similar to hCG-induced desensitization by every criteria tested. Both TPA- and hCG-induced desensitization caused approximately 50% loss of the hormone response within 30 min. Neither TPA or hCG altered receptor affinity for hCG. The dose response of adenylate cyclase to hCG or GTP in isolated membranes was not affected by either hCG- or TPA-induced desensitization. Similarly the dose response to hCG of cAMP accumulation in intact cells was not altered by desensitization with hCG or TPA. It was determined that MLTC-1 cells have Ca2+/phospholipid-dependent protein kinase activity that displayed a dose-dependent response to TPA. The concentration of TPA required to activate the protein kinase was similar to that required for desensitization. Phorbol esters that were unable to activate protein kinase C were also unable to desensitize MLTC-1 cells. The protein kinase from MLTC-1 cells was also activated by diacylglycerol. In addition, diacylglycerols caused desensitization of the hCG response. TPA- and diacylglycerol-induced desensitization is probably mediated by protein kinase C, and the similarities between hCG- and TPA-induced refractoriness suggests a convergence of mechanisms at some point of MLTC-1 cell desensitization.     

Inhibitory action of forskolin on adenylate cyclase activity and cyclic AMP generation

In testicular Leydig cells, forskolin causes the expected stimulation of cAMP and testosterone production and potentiates gonadotropin-induced responses, when present in concentrations of 1-10 microM. In addition, when added at lower doses that did not affect cAMP generation and testosterone responses (100 nM), forskolin caused an increase in sensitivity to hormonal stimulation for all cAMP pools (extracellular, intracellular, and receptor-bound) and a 70% reduction in the ED50 for human chorionic gonadotropin (hCG) stimulation of testosterone production. Forskolin-induced increases in receptor-bound cAMP were less effective than those elicited by hCG in stimulating steroidogenesis. In contrast to the well-known stimulatory actions of forskolin, low doses of the diterpene (in the picomolar to nanomolar range) markedly inhibited the production of cAMP and testosterone. Such inhibitory actions of low-dose forskolin were prevented by preincubation of Leydig cells with pertussis toxin before addition of forskolin and/or hCG. Low concentrations of forskolin also inhibited adenylate cyclase activation by GTP and luteinizing hormone, and this effect was prevented by pretreatment of cell membranes with pertussis toxin. These studies have defined the stimulatory effects of forskolin on Leydig-cell cAMP pools, including potentiation of the hormonal increase in receptor-bound cyclic AMP by forskolin, and have provided additional evidence for the functional importance of cAMP compartmentalization during hormonal stimulation of steroidogenesis. We have also demonstrated a novel, high-affinity inhibitory action of forskolin upon adenylate cyclase activity and cyclic AMP generation, an effect that appears to be mediated by the Ni guanine nucleotide regulatory subunit of adenylate cyclase.     

Human chorionic gonadotropin-ricin A chain hybrid protein: a hormone analog for the study of signal transduction

We have prepared a disulfide cross-linked hybrid consisting of human chorionic gonadotropin and the toxic ricin A chain, utilizing N-succinimidyl-3-(2-pyridyldithio)-propionate. The purified hybrid exhibited cytotoxicity toward rat testis Leydig cells due to inhibition of protein synthesis within the cells, although it inhibited protein synthesis in a cell-free system of a rabbit reticulocyte lysate only after treatment of the hCG-A hybrid with dithiothreitol. On the other hand, pretreatment of the hCG-A hybrid with dithiothreitol completely abolished its cytotoxicity. The hCG-A hybrid stimulated the testosterone production by rat testis Leydig cells to a similar degree to hCG. The hCG-A hybrid could elicit full testosterone production in the presence of about 1/3-1/2 less accumulated cAMP compared with in the case of hCG stimulation. The steroidogenetic effect of the hCG-A hybrid was largely inhibited by anti-hCG antibody but not by anti-ricin A chain antibody. These results suggest that the hCG-A hybrid first binds to Leydig cells via an hCG receptor and then is internalized into the cells, and finally the inhibition of cellular protein synthesis occurs on the release of the ricin A chain from the hybrid. Furthermore, it was suggested that hCG may stimulate testosterone production via another second messenger system as well as via the cAMP system, since the hCG-A hybrid stimulated full testosterone production without maximal cAMP accumulation.     

Studies on the mode of action of gonadotrophin-inhibiting material (anti-LH) isolated from human urine.

Gonadotrophin-inhibiting material (GIM) was able to inhibit the binding of 125I-hCG to rat Leydig cells, suggesting that its inhibiting properties are due to its ability to complete for the hCG binding sites on Leydig cells. Binding of fluorescein isothiocyanate-tagged GIM to Leydig cells was also seen. The effect of GIM on hCG-induced adenylate cyclase activation and testosterone production was also studied. It was found that there was a dose-dependent inhibition of both these effects.     

Paracrine effect of seminiferous tubule factors on rat Leydig cell testosterone production: Role of cytoskeleton

In Percoll purified Leydig cells from mature rat we have demonstrated that the basal testosterone production (9.5 ng/10⁶ Leydig cells/24 h) is increased 10-fold in presence of a saturating amount of hCG (1 IU/mL) and diminished in a dose-related manner when larger concentrations of gonadotropin are used to reach 14 ng/10⁶ Leydig cells for 50 IU of hCG. If 40% (v/v) seminiferous tubule medium (STM) is added together with hCG (1 IU/mL) to the incubation medium, a further increase (62%) of testosterone output is noticed. Obviously, when the testosterone production is low as a consequence of a higher dose of hCG (50 IU/mL), the STM (80%) improves the steroid synthesis five-fold (67.4 ng). Concerning the cytoskeletal components (microtubules, intermediate filaments and microfilaments) which have been examined in presence or absence of hCG and STM, we have found a rearrangement of cytoskeletal elements as well as cell-shape changes in relation with hormonal activity of the cells. The most prominent alterations of cytoskeletal elements have been observed after 24 h of incubation with 1 IU/mL of hCG added together with 80% of STM. The obtained results suggest that paracrine factor(s) presents in STM and acting in synergy with LH/hCG generate(s) the rearrangement of cytoskeletal structures which, in turn, facilitates the availability of cholesterol for the mitochondria and finally enhances the testosterone production in the rat Leydig cells.     

Interleukin-1 alpha as a potent inhibitor of gonadotropin action in porcine Leydig cells: site(s) of action.

The effects of interleukin on testicular steroidogenesis have been studied in several laboratories, most often by using cultured rat Leydig cells. Several reports have indicated that interleukin-1 beta (IL-1 beta), but not interleukin-1 alpha (IL-1 alpha), exert a potent effect on gonadotropin action in rat Leydig cells. By using cultured porcine Leydig cells as a model, we found that IL-1 alpha (and to a lesser extent IL-1 beta), contrary to previous reports, is a potent inhibitor of LH/hCG steroidogenic action; and we further localized the steroidogenic biochemical step(s) affected by IL-1 alpha. IL-1 alpha inhibited hCG-induced testosterone secretion (about 67%) in a dose- and time-dependent manner. Half maximal and maximal effects were obtained with 4 U/ml (approximately 0.4 ng/ml, 0.3 x 10(-10) M) and 20 U/ml (approximately 2 ng/ml, 1.4 x 10(-10) M) of IL-1 alpha, respectively. The inhibitory effect of IL-1 alpha on gonadotropin action was detected at 6 h and was maximal after 24 h of treatment with the cytokine. The IL-1 alpha inhibitory effect was more potent than that of IL-1 beta: the maximal inhibitory effect of IL-1 beta was obtained with 400 U/ml. Subsequent investigations indicated that IL-1 alpha inhibited different biochemical steps involved in gonadotropin-induced testicular steroidogenesis. In this context, although IL-1 alpha appears to inhibit Leydig cell membrane functions (through a decrease in LH/hCG binding and gonadotropin-induced cAMP production), the antigonadotropin action of the cytokine is probably exerted predominantly at a step(s) located beyond cAMP formation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Involvement of nitric oxide synthase in the mechanism of histamine-induced inhibition of Leydig cell steroidogenesis via histamine receptor subtypes in Sprague-Dawley rats

This study was conducted to shed light on the so far unexplored intracellular mechanisms underlying negative modulation of Leydig cell steroidogenesis by histamine (HA). Using the MA-10 cell line and highly purified rat Leydig cells as experimental models, we examined the effect of the amine on biochemical steps known to be modulated by HA or involved in LH/hCG action. In agreement with previous findings, HA at 10 microM showed a potent inhibitory effect on hCG-stimulated steroid synthesis, regardless of the gonadotropin concentration used. Moreover, HA decreased not only LH/hCG-induced cAMP production but also steroid synthesis stimulated by the permeable cAMP analog dibutyryl cAMP (db-cAMP). Considering the post-cAMP sites of HA action, it is shown herein that HA markedly inhibited db-cAMP-stimulated steroidogenic acute regulatory (STAR) protein expression, as well as steps catalyzed by P450-dependent enzymes, mainly the conversion of cholesterol to pregnenolone by cholesterol side-chain cleavage enzyme (CYP11A). The antisteroidogenic action of HA was blocked by addition of the phospholipase C (PLC) inhibitor U73122, and HA significantly augmented inositol triphosphate (IP3) production, suggesting a major role for the PLC/IP3 pathway in HA-induced inhibition of Leydig cell function. Finally, HA increased nitric oxide synthase (NOS) activity, and the NOS inhibitor NG-nitro-L-arginine methyl ester (L-NAME) markedly attenuated the effect of the amine on steroid synthesis. On the basis of our findings, HA antagonizes the gonadotropin action in Leydig cells at steps before and after cAMP formation. NOS activation is the main intracellular mechanism by which HA exerts its antisteroidogenic effects.