Project description:The results of this study, carried out with purified rat Leydig cells, indicate that there are no major differences in the stimulating effects of lutropin (LH) and luliberin (LHRH) agonists on steroidogenesis via mechanisms that are dependent on Ca2+. This was demonstrated by using inhibitors of calmodulin and the lipoxygenase pathways of arachidonic acid metabolism. All three calmodulin inhibitors used (calmidazolium, trifluoperazine and chlorpromazine) were shown to block LH- and LHRH-agonist-stimulated steroidogenesis. This probably occurred at the step of cholesterol transport to the mitochondria. Similarly, three lipoxygenase inhibitors (nordihydroguaiaretic acid, BW755c and benoxaprofen), inhibited both LH- and LHRH-agonist-stimulated steroidogenesis. The amounts of the inhibitors required were similar for LH- and LHRH-agonist-stimulated steroidogenesis. Steroidogenesis stimulated by the Ca2+ ionophore A23187 was also inhibited, but higher concentrations of the inhibitors were required. Indomethacin (a cyclo-oxygenase inhibitor) increased LHRH-agonist-stimulated steroidogenesis;this is consistent with the role of the products of arachidonic acid metabolism via the alternative, lipoxygenase, pathway. The potentiation of LH-stimulated testosterone production by LHRH agonist was unaffected by indomethacin or by lipoxygenase inhibitors at concentrations that inhibited LH-stimulated testosterone production by 75-100%. It was not possible to eliminate a role of calmodulin in modulating the potentiation, although higher concentrations of the inhibitors were generally required to negate the potentiation than to inhibit LH- or LHRH-agonist-stimulated testosterone production.

Project description:Cholesterol depletion reversibly abolishes carbachol-evoked Ca(2+) release from inositol (1,4,5)-trisphosphate (IP3)-sensitive stores, without affecting the distribution of IP3 receptors (IP3R) or endoplasmic reticulum, IP3 formation or responses to photolysis of caged IP3. Receptors that stimulate cAMP formation do not alone evoke Ca(2+) signals, but they potentiate those evoked by carbachol. We show that these potentiated signals are entirely unaffected by cholesterol depletion and that, within individual cells, different IP3-sensitive Ca(2+) stores are released by carbachol alone and by carbachol combined with receptors that stimulate cAMP formation. We suggest that muscarinic acetylcholine receptors in lipid rafts deliver IP3 at high concentration to associated IP3R, stimulating them to release Ca(2+). Muscarinic receptors outside rafts are less closely associated with IP3R and provide insufficient local IP3 to activate IP3R directly. These IP3R, probably type 2 IP3R within a discrete Ca(2+) store, are activated only when their sensitivity is increased by cAMP. Sensitization of IP3R by cAMP extends the effective range of signalling by phospholipase C, allowing muscarinic receptors that are otherwise ineffective to recruit additional IP3-sensitive Ca(2+) stores.

Project description:The role of cyclic AMP in the regulation of lutropin (luteinizing hormone, LH) receptors has been investigated in cultured mouse tumour (MA10) Leydig cells. The LH receptors were quantified by measuring the binding of 125I-labelled human chorionic gonadotropin (hCG). LH (0.03 nM) in the presence of 1 mM-dibutyryl-cyclic AMP [(Bu)2cAMP] caused a 3-8-fold increase in subsequent 125I-hCG binding. (Bu)2cAMP (1 mM), cholera toxin (11.9 nM) and forskolin (1 microM) each caused a 2-4-fold increase in binding. In the presence of translation (cycloheximide) and transcription (actinomycin D) inhibitors, there was a loss of detectable binding sites. (Bu)2cAMP increased the rate of recovery of binding sites after trypsin treatment of MA10 cells, with a concomitant 2-fold increase in the level of binding sites. Under conditions where receptor levels were increased by 3-8-fold there was also a significant increase in pregnenolone production. It is concluded that LH and cyclic AMP have positive regulatory effects on LH receptors in MA10 cells by inducing the synthesis of new receptors. These induced receptors are functionally coupled to steroidogenesis.

Project description:Leydig cells represent the steroidogenic lineage of mammalian testis, which produces testosterone. Genetic evidence indicates the requirement of Notch signaling in maintaining a balance between differentiated Leydig cells and their progenitors during fetal development. In primary Leydig cells, Notch1 expression decreases with testicular development, while the expression of its ligand, Jagged1, remains relatively unchanged, suggesting that the roles of Jagged1 extend beyond Notch signaling. In addition, Jagged1 is known to be processed into its intracellular domain, which then translocate to the nucleus. In this study, we investigated the effect of Jagged1 intracellular domain (JICD) on steroidogenesis in Leydig cells. The independent overexpression of JICD in MA-10 Leydig cells was found to inhibit the activity of cAMP-induced Nur77 promoter. In addition, JICD suppressed Nur77 transactivation of the promoter of steroidogenic genes such as P450scc, P450c17, StAR, and 3β-HSD. Further, adenovirus-mediated overexpression of JICD in primary Leydig cells repressed the expression of steroidogenic genes, consequently lowering testosterone production. These results collectively suggest that steroidogenesis in testicular Leydig cells, which is regulated by LH/cAMP signaling, is fine-tuned by Jagged1 during testis development.

Project description:A system to study lutropin-induced desensitization of tumour Leydig cells in vitro has been investigated. Tumour Leydig cells were purified on a Percoll gradient and then incubated for 30 min with lutropin (0-1000ng/ml). The cells were then washed and incubated in suspension media at 32 degrees C. 125I-labelled human choriogonadotropin binding and basal and lutropin-stimulated cyclic AMP production were determined at various times. Initially the cells showed a dose-dependent decrease in human choriogonadotropin binding (1.18 and 0.13fmol/10(6) cells respectively) followed by an increase at 1 h (2.32 and 0.87fmol/10(6) cells respectively). Human choriogonadotropin binding remained elevated in the cells pre-incubated without lutropin, whereas the cells pre-incubated with lutropin showed a dose-dependent decrease over the next 10 h (2.20-0.18fmol/10(6) cells respectively). Basal production of cyclic AMP initially reflected the pre-incubation conditions (1.17-21.19ng/10(6) cells per h for 0-1000ng of lutropin/ml respectively). However, by 1 h there was a marked rise in basal cyclic AMP production which returned to the initial lower values by 4 h. At all time intervals studied, lutropin-induced cyclic AMP production showed a decrease that was proportional to lutropin concentration in the pre-incubated media. The decreases in human choriogonadotropin binding produced by pre-incubations with lutropin (100ng/ml) was partially inhibited by the presence of cycloheximide in the pre-incubation media and totally prevented by the continuous presence of cycloheximide. These results demonstrate that desensitization of tumour Leydig cells occurs after exposure to lutropin in vitro. This desensitization involves both a loss of plasma membrane receptors for lutropin and lutropin-stimulated adenylate cyclase. These events can be prevented by cycloheximide and are therefore probably dependent on protein synthesis.

Project description:Tumour Leydig cells have been incubated in the presence or absence of lutropin (luteinizing hormone, ;LH'). Stimulation of cells with lutropin (1000ng/ml) in the presence of 1-methyl-3-isobutylxanthine (0.25mm) resulted in increased steroid production and increased protein phosphorylation. When pregnenolone metabolism was inhibited, basal pregnenolone production was 26.9+/-7.4ng/60min per 10(6) cells; stimulated production was 156.1+/-39.5ng/60min per 10(6) cells (means+/-s.d., n=4). Lutropin-dependent phosphorylated proteins of molecular mass 17000, 22000, 24000, 33000 and 57000Da were detected. A significant increase of [(32)P]P(i) incorporation into these phosphorylated proteins was observed concomitant with the increased pregnenolone production. The occurrence of the phosphoproteins in nuclei, mitochondria and postmitochondrial-supernatant was investigated. The 17000Da phosphoprotein was found in the nuclear fraction, whereas the 22000, 24000, 33000 and 57000Da phosphoproteins were localized in the postmitochondrial-supernatant fraction. Of the cholesterol-side-chain-cleavage activity, 80.3+/-6.1% (mean+/-s.d., n=5) was present in the mitochondrial fraction isolated from tumour Leydig cells, and this activity was 2.5-fold increased when cells had been preincubated with lutropin/1-methyl-3-isobutylxanthine (basal production: 194.6+/-28.6ng/30min per mg of protein; lutropinstimulated production: 498.8+/-91.5ng/30min per mg of protein; means+/-s.d., n=3). The similarities in the kinetics of the phosphorylation of proteins and the pregnenolone production after addition of lutropin/1-methyl-3-isobutylxanthine indicate that the phosphoproteins could be involved in the lutropin-dependent increase in steroidogenesis in tumour Leydig cells. It remains to be demonstrated, however, to what extent the phosphoproteins outside the mitochondria can influence the cholesterol-side-chain-cleavage activity inside the mitochondria.

Project description:The action of adenosine on lutropin (LH)-stimulated cyclic AMP production and LH-induced desensitization of adenylate cyclase in rat Leydig tumour cells was investigated. Adenosine and N6-(phenylisopropyl)adenosine caused a dose-dependent potentiation of LH-stimulated cyclic AMP production at concentrations (0.01-10 microM) which alone did not produce an increase in cyclic AMP production. However, 2-deoxyadenosine had no effect either alone or in combination with LH on cyclic AMP production. The potentiation produced by adenosine was unaffected by concentrations of the specific nucleoside-transport inhibitor dipyridamole, which inhibited [3H]adenosine uptake by up to 90%. The phosphodiesterase inhibitor 3-isobutyl-l-methylxanthine, but not RO-10-1724, inhibited the adenosine-induced potentiation. In the presence of adenosine, the kinetics of LH-stimulated cyclic AMP production were linear with time up to 2h, compared with those with LH alone, which showed a characteristic decrease in rate of cyclic AMP production after the first 15-20 min. Consistent with the altered kinetics, adenosine also inhibited the LH-induced desensitization of adenylate cyclase. These results suggest that adenosine has effects on rat tumour Leydig cells through receptors on the external surface of the plasma membrane. This receptor has characteristics similar to those of the R-type receptors, which have been shown either to stimulate or to inhibit adenylate cyclase. However, the effects of adenosine in the present studies does not involve a direct inhibition or activation of adenylate cyclase, but may involve an as yet undefined receptor-mediated modulation of adenylate cyclase.

Project description:Calretinin, a Ca2+-binding protein, participates in many cellular events. Our previous studies found the high expression of calretinin in testicular Leydig cells. In this study, (MLTC-1 cells were infected with LV-calb2, R2C cells with LV-siRNA-calb2. The primary mouse Leydig cells were also used to confirm those data from cell lines. Testosterone level was significantly higher in the MLTC-1 cells with over-expressed calretinin than in the control, while progesterone was lower in the R2C cells in which down-regulated calretinin. The expressions of StAR changed in synchrony with hormones. Cytoplasmic Ca2+ level was significantly increased when calretinin was over-expressed. When MLTC-1 cells were infected with LV-calb2 and then stimulated using Clopiazonic, a Ca2+-releasing agent, testosterone was significantly increased. Interestingly, the expression levels of PLC, p-PKCµ (PKD), p-MARCKS and CREB, were significantly increased in the MLTC-1 cells with over-expressed calretinin, while PLC, p-PKD, p-MARCKS, MARCKS and CREB were decreased in the R2C cells with down-regulated calretinin. We also observed the increased expression of calretinin up-regulated testosterone production and the expressions of StAR and PLC in primary mouse Leydig cells. So, calretinin as a Ca2+-binding protein participates in the regulation of steroidogenesis via the PLC-Ca2+-PKC pathway in Leydig cells.

Project description:The dependence on lutropin of the synthesis of a proposed short-half-life protein regulator involved in Leydig-cell steroidogenesis was investigated. This was carried out by determining the effect of the protein-synthesis inhibitor cycloheximide, added before and during incubations with lutropin (and/or dibutyryl cyclic AMP), on the rate of testosterone production in suspensions of purified Leydig cells from adult rat testes. The Leydig cells were preincubated in Eagle's medium for 2.5h followed by 30min incubation with and without cycloheximide. The inhibitor was removed by washing the cells and then lutropin was added and testosterone concentrations were determined after incubation of the cells at 32 degrees C. No significant effect of cycloheximide pretreatment on lutropin-stimulated steroidogenesis was found during 60min incubation. This was in contrast with the complete inhibiting effect of cycloheximide when it was added with the lutropin. The pretreatment experiments with cycloheximide were repeated in the presence of dibutyryl cyclic AMP and elipten phosphate (to inhibit cholesterol side-chain cleavage) followed by incubation with lutropin. After 5, 10, 20 and 60min of incubation, testosterone concentrations were 61+/-3, 46+/-3, 27+/-4 and 18+/-4% lower than in the cells pretreated without cycloheximide respectively (means+/-s.e.m., n=4-6). In the cells not pretreated with cycloheximide and in the absence of lutropin, testosterone production increased from 1.36+/-0.5 to 36.5+/-1.0ng/10(6) cells during 20min of incubation, after which no further increase occurred. Pretreatment of the cells with cycloheximide decreased these testosterone concentrations by 65, 46, 42 and 36% in the 5, 10, 20 and 60min incubations respectively (mean values, n=2-4). It is apparent from these results that inhibition of steroidogenesis only occurs if protein synthesis is inhibited in the presence of lutropin or cyclic AMP. A new hypothesis is put forward to explain these findings: it is proposed that lutropin affects the stability of a precursor of a regulator protein by converting it from a stable (inactive) to an unstable (active) form with a short half-life.

Project description:The effects of the beta-adrenoceptor agonist isoprenaline and cyclic AMP (cAMP) on cytosolic free Ca2+ ([Ca2+]i) were studied in the single guinea-pig hepatocyte. In common with InsP3-dependent agonists such as noradrenaline or angiotensin II, isoprenaline (0.5-10 microM) and cAMP (50-100 mM, perfused into the cell via the patch-pipette), were able to generate fast and slow fluctuations of [Ca2+]i. Responses to isoprenaline and cAMP also were observed in the absence of external Ca2+. Isoprenaline-evoked [Ca2+]i rises were not blocked by the intracellular perfusion of heparin, suggesting that these fluctuations are independent of the binding of InsP3 to its receptor.