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Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The adenylate cyclase activity of Leydig cell homogenates and membrane fractions is highly dependent on guanyl nucleotides, and enzyme responses to luteinizing hormone or human chorionic gonadotropin are small in the absence of guanyl nucleotides. However, in the presence of 10 microM guanosine 5'-[beta, gamma-imido]triphosphate Gpp[NH]p, both hormones consistently stimulated testicular adenylate cyclase activity by up to 200%. Leydig cell membranes bound [3H]Gpp[NH]p at 30 degrees C with high affinity (Ka = 1.5 X 10(7) M-1) and binding capacity of 60 pmol/mg of protein. During kinetic studies, the association rate constant was 1.7 X 10(6) M-1 min-1, and the dissociation constant was 0.038 min-1. In the presence of gonadotropin (10 pM to 10 nM), concentration-dependent increases of 40% to 100% in Gpp[NH]p binding were observed in Leydig cell membranes. Kinetic studies showed that gonadotropin decreased the association rate constant to 0.73 X 10(6) M-1 min-1 and the dissociation rate constant to 0.017 min-1, with no effect on the equilibrium binding constant. Thus, the increase in Gpp[NH]p binding was not due to a change in receptor affinity but was attributable to increased availability of nucleotide binding sites. The 50% effective dose for adenylate cyclase activation by gonadotropin in the presence of Gpp[NH]p was identical with that observed for gonadotropin-induced binding of the GTP analog (50 nM). Gonadotropin-induced binding of Gpp[NH]p in Leydig cell membranes may represent interaction with the guanyl nucleotide regulatory site during hormonal activation of adenylate cyclase.
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PMID:Hormone-induced guanyl nucleotide binding and activation of adenylate cyclase in the Leydig cell. 693 15

An LH sensitive adenylate cyclase from a tumour Leydig cell has been investigated. The plasma membranes, prepared by a 2 phase (dextran-polyethylene glycol) centrifugation method were found to have the following properties: In the presence of LH plus p(NH)ppG (guanosine 5'-beta, gamma-imido triphosphate) or fluoride ions, maximum adenylate cyclase activity was obtained in the plasma membranes with 4 to 6 mM Mg2+ plus 0.33 to 2 mM ATP. LH alone stimulated adenylate cyclase activity 2-fold when compared with basal activity and the time course of cyclic AMP production was linear up to 45 min. With GTP (10(-5)M) and GTP plus LH, adenylate cyclase activity was increased 3 and 6-fold, respectively, for up to 20 min and thereafter declined. In contrast p(NH)ppG (10(-5)M) and p(NH)ppG plus LH increased adenylate cyclase activity 7 and 14-fold which was maintained for at least 45 min. Fluoride ions increased the enzyme activity linearly over 45 min approx 18-fold. When GTP or p(NH)ppG were added alone there was a lag time of activation of approximately 10 min which was abolished by the addition of LH. GTP but not p(NH)ppG at concentrations greater than 10(-4) inhibited basal and LH stimulated adenylate cyclase when compared with 10(-5)M GTP. The tumour Leydig cell adenylate cyclase is thus essentially similar to other hormone sensitive somatic cells. The present study makes it feasible to prepare plasma membranes by a simple method from large quantities of pure Leydig cells.
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PMID:Isolation and characterization of plasma membranes containing LH sensitive adenylate cyclase from a Leydig cell tumour. 716 Sep 20

The effects of melatonin (MLT; 4.3 pM to 4.3 microM) on rat Leydig cell steroidogenesis and cAMP production were investigated during 3-h LH (30 mIU/ml) stimulation. Having noted a dose-dependent inhibition of testosterone (T) release, we also tested MLT in the presence of the cAMP activator forskolin (1 microM), the phosphodiesterase inhibitor isobutylmethylxanthine (100 microM), a combination of these two, and LHRH (100 nM), a non-cAMP-mediated stimulus. Regardless of the stimulus, levels of T, androstenedione, and cAMP were reduced, whereas that of 17-hydroxyprogesterone was enhanced. Cells were also tested after prolonged exposure to MLT (215 nM for 16 h). When compared with data from cells not preincubated with MLT, cAMP and T levels were 30% higher during LH stimulation (30 mIU/ml); comparable during treatment with forskolin (1 microM), isobutylmethylxanthine (100 microM), or their combination; and reduced during LHRH (100 nM). Scatchard analysis did not reveal changes in LH receptors during prolonged MLT exposure. Our data show that MLT acutely reduces cAMP- and non-cAMP-stimulated T. This effect is linked in part to reduced cAMP production and in part to reduced 17-20-desmolase enzymatic activity, which, however, can occur even with non-cAMP-mediated stimulation. On the other hand, prolonged exposure to MLT results in sensitization of the LH-dependent adenylate cyclase activity.
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PMID:In vitro acute and prolonged effects of melatonin on purified rat Leydig cell steroidogenesis and adenosine 3',5'-monophosphate production. 758 82

The steroidogenic activity of the Leydig cell is regulated by glycoprotein and peptide hormones with the potential to activate both adenylate cyclase and phospholipase C. Although the control of androgen production by LH is clearly mediated by cAMP, the extent to which Ca(2+)-mobilizing stimuli control Leydig cell function is less well defined. The basal level of intracellular calcium ([Ca2+]i) in adult rat Leydig cells was 70-160 nM and was unaffected by high K+ or the dihydropyridine calcium channel agonist, Bay K 8644. These findings are consistent with the absence of voltage-sensitive calcium channels in the Leydig cell. In addition, no increase in [Ca2+]i was observed in cells treated with LH, CRF, and serotonin. However, both GnRH and endothelin-1 (ET-1) induced rapid and transient elevations of [Ca2+]i that were not associated with a sustained plateau phase and were unaffected by removal of Ca2+ from the incubation medium. The amplitude of the [Ca2+]i response was not altered by increasing concentrations of GnRH and ET-1, but the number of responsive cells increased progressively to a maximum of about 30% of the Leydig cell population. The calcium-mobilizing actions of GnRH and ET-1 were abolished by the GnRH and ETA receptor antagonists, [Dp-Glu1,D-Phe2,D- Trp3,6]GnRH and BQ-123, respectively. The majority of the cells expressed solely GnRH or ETA receptors, and about 10% expressed both receptors. GnRH-induced Ca2+ responses were observed almost exclusively in medium-sized Leydig cells, whereas ET-induced responses were most frequent in large Leydig cells. These data demonstrate that single Leydig cells expressing GnRH and ETA receptors exhibit monophasic [Ca2+]i responses that are activated in an all-or-none fashion. Such transient Ca2+ signaling may trigger short term cellular responses or could modulate the actions of gonadotropins acting through the cAMP signaling pathway.
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PMID:Calcium signaling in single rat Leydig cells. 762 78

The modulation of the luteinizing hormone (LH) induction of cholesterol side chain cleavage (CSCC) enzyme in immature rat Leydig cells was studied using rat Sertoli cell-conditioned medium (SCCM), which stimulates short-term endogenous steroid production. Luteinizing hormone increased the CSCC enzyme activity 10-fold in cells cultured for 7 days in the absence of hormones. This enzyme induction was abolished almost completely in the presence of SCCM. The inhibition was dose dependent (half-maximal effect at 5 mg protein/l) and paralleled by a decrease in the amount of cytochrome P-450scc (P-450scc) enzyme. There were no indications for loss of cell viability. The inhibitory action of SCCM could be localized at the level of adenylate cyclase activation and at steps beyond cyclic adenosine monophosphate production. The inhibition was not specific for Sertoli cell products because conditioned media from different cell lines and media from isolated rat hepatocytes displayed similar effects. Trypsin treatment of SCCM destroyed the activity whereas the bioactivity could resist heating for 5 min at 100 degrees C. Generally occurring (growth) factors, such as epidermal growth factor or tumor necrosis factor alpha, may have contributed to the observed inhibitory effects of SCCM. These inhibitory effects of Sertoli cell products in vitro are in contrast to stimulatory effects of Sertoli cells on Leydig cell steroidogenesis in vivo after FSH administration.
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PMID:Inhibition of the luteinizing hormone-dependent induction of cholesterol side chain cleavage enzyme in immature rat Leydig cells by Sertoli cell products. 774 7

Seminiferous tubules prepared from adult rats cultured for 48 h in serum-free conditions produce multiple biological factors that modulate Leydig cell steroidogenic function in vitro. Using gel filtration chromatography, it was shown that seminiferous tubular culture medium (STCM) contained at least three inhibitory activities designated AI, AII, and AIII that inhibited testosterone production by purified Leydig cells. The factor that induced AIII activity, designated Leydig cell inhibitor (LCI), was further purified to apparent homogeneity by sequential HPLC using gel permeation, C8-, C18-, C2/C18-reversed-phase, and microbore anion exchange columns. When this batch of purified factor was resolved by SDS-PAGE under reducing conditions, only a single silver stained band with an apparent M(r) of 21,000 was detected. Protein sequence analysis using about 100 pmol of purified LCI revealed that its N-terminus was blocked. Incubation of this highly purified factor with Percoll gradient purified Leydig cells induced a dose-dependent inhibition of hCG-stimulated testosterone production. LCI inhibited the basal testosterone production and hCG-stimulated cAMP production by Leydig cell dose-dependently. It also inhibited the forskolin- and cholera toxin-stimulated testosterone and cAMP production but had no apparent effect on the binding of 125I-labeled hCG to LH receptors. These data suggest that this LCI exerts its inhibitory action at steps beyond the LH receptors but prior to the cAMP formation by affecting the adenylate cyclase activity directly or indirectly through inhibition of the stimulatory G-protein (Gs-protein); however, it is also possible that it decreases the coupling of the receptors to the Gs-protein. LCI also inhibited the conversion of exogenously added 22R-hydroxycholesterol, pregnenolone, progesterone, and 17 alpha-hydroxyprogesterone to testosterone. However, it had no effect on the conversion of dehydroepiandrostenedione and androstenedione to testosterone. These data strongly suggest that LCI affects the steroidogenic enzymes metabolizing cholesterol to testosterone, the cytochrome P-450 side-chain cleavage (P-450SCC), and cytochrome P-450 17 alpha-hydroxylase/17,20-lyase (P-450C17). However, it has no effect on the 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) enzyme activities. Based on the results of the present study, it is apparent that this LCI is distinct from other known potent Leydig cells inhibitors such as interleukin-1 (IL-1) and transforming growth factor-beta (TGF-beta). The LCI appears to involve in the paracrine regulation of Leydig cell function.
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PMID:Rat seminiferous tubular culture medium contains a biological factor that inhibits Leydig cell steroidogenesis: its purification and mechanism of action. 798 48

The influence of spent medium from immature mouse Sertoli cells (SCM) on testosterone production by purified Leydig cells was investigated and compared to that of AVP, a potent local modulator of Leydig cell steroidogenesis. SCM inhibited in a dose-dependent manner the hCG-stimulated testosterone production, but was ineffective in basal conditions. As is known for AVP, (i) a lag period of 72 h was prerequisite for SCM to inhibit Leydig cell function; (ii) the main effect of SCM was located at a step beyond the receptor-adenylate cyclase system, since the hCG- and 8-bromo-cAMP-stimulated testosterone productions were similarly affected. The possibility that the effect of SCM may be related to AVP-like molecule(s) is also supported by the observations that at maximal concentrations the inhibitory effects of AVP and SCM were not additive and that the inhibition of testosterone production was largely (65%) reversed by the presence of [(beta-mercapto-beta, beta-cyclopentamethylenepropionyl, O-Me-Tyr2,Arg8)-vasopressin], a selective vasopressor antagonist. These data indicate that Sertoli cells produce in vitro potent inhibitory factors of Leydig cell steroidogenesis. They provide additional evidence that one of these bioactive factors has an effect on Leydig cell function similar to that of AVP.
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PMID:Presence in mouse Sertoli cell-conditioned medium of a factor that expresses AVP-like inhibition of steroidogenesis by mouse Leydig cells in long-term culture. 818 58

In order to establish an assay for the detection of autoimmune sera with broad spectrum activity, we have investigated the effect of unselected normal and Graves' disease sera upon steroidogenesis by gonadal cells. Steroidogenesis was enhanced by the addition of normal serum in a 3-h primary Leydig cell bioassay, but was inhibited by the majority of Graves' sera. The inhibition was not related to clinical thyroid parameters, such as the severity of the TSH-binding inhibition index, and was not overcome by other agonists or second messenger supplements. Although pituitary TSH preparations bound to and stimulated Leydig cells, TSH receptor mRNA was not detectable and pure recombinant TSH failed to bind or stimulate, indicating contamination of pituitary TSH with LH. The binding of hCG to the Leydig cell luteinizing hormone receptor was not perturbed by the Graves' autoimmune sera, indicating that cross-reactive anti-TSH receptor antibodies were not responsible for the inhibition. By use of intermediates in the stimulatory pathway, the site of Graves' serum inhibition was identified to be distal to hormone receptor/adenylate cyclase coupled responses and proximal to supply of cholesterol for steroidogenesis.
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PMID:Graves' autoimmune serum inhibits gonadal steroidogenesis: development of a Leydig cell bioassay to identify broad spectrum anti-endocrine autoantibodies. 835 Mar 5

Corticotropin-releasing factor (CRF), the key neuropeptide in the stress cascade, has major inhibitory actions on testicular function in addition to its known antireproductive effects at the central level (inhibition of sexual behavior and LH secretion). CRF is secreted by the Leydig cells of the testis and acts through high-affinity receptors at the Leydig cell membrane as a potent negative regulator of LH action, inhibiting gonadotropin-induced cAMP generation and androgen production. CRF is also a primary stimulus of beta-endorphin secretion by the Leydig cells, which in turn exerts paracrine inhibition of FSH action in the tubular compartment of the testis through high-affinity receptors in the Sertoli cells. CRF action in the Leydig cells involves a pertussis toxin-insensitive guanyl nucleotide regulatory unit. In contrast to CRF receptors in the brain, pituitary, and other peripheral tissues, those in the Leydig cell are not coupled to Gs. The inhibitory action of CRF in the Leydig cell is exerted through protein kinase C, at the level of the catalytic subunit of adenylate cyclase. The secretion of CRF by the Leydig cell is stimulated by LH, acting via release of serotonin (5HT) and autocrine activation of 5HT2 receptors. Serotonin acts on 5HT2 receptors in the Leydig cell to stimulate CRF secretion via a pertussis toxin insensitive G-protein and presumably through activation of phosphoinositide hydrolysis. The diversity of the biochemical responses to CRF and 5HT2 receptor activation (i.e., inhibition of adenylate cyclase at the cytoplasmic aspect of the cell membrane vs. stimulation of CRF release from secretion granules) may reflect the stimulation of different protein kinase C isoenzymes. The LH-->5HT-->CRF inhibitory loop serves to continuously buffer the stimulation of androgen production by gonadotropin. 5HT, the immediate stimulus of testicular CRF secretion, is released during stress and is locally increased in the testis in pathological conditions associated with impaired testicular function (i.e., orchitis, varicocele). Also, propranolol, the beta-adrenergic antagonist frequently used in the control of blood pressure in patients with hypertension and often associated with impotence, acts via a serotonergic mechanism to stimulate CRF secretion and causes marked inhibition of LH-induced cAMP production and steroidogenesis in cultured Leydig cells. These basic studies of 5HT and CRF are relevant to the pathogenesis of testicular dysfunction and for the development of antagonist therapies to block CRF production and its local antireproductive effects.
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PMID:Corticotropin-releasing factor: an antireproductive hormone of the testis. 838 38

The present study in purified rat Leydig cells shows that arachidonic acid may act as an intratesticular factor regulating LH-mediated testicular steroidogenesis. Arachidonic acid decreased, in a dose-dependent manner, the LH-stimulated cAMP and testosterone levels, over 2 h incubation. Incubation of Leydig cells with arachidonic acid did not modify 125I-hCG binding to the cells as compared to control, showing that the action of arachidonic acid is not related to a decrease of hCG binding to the cells. Forskolin-stimulated cAMP and testosterone production were inhibited by 51.65 and 70.9%, respectively, in the presence of arachidonic acid (100 microM), although the ED50 for the diterpene was not changed. When isobutyl-methyl-xanthine was added to the incubation medium, the same percentage of inhibition was found indicating that arachidonic acid inhibition of cAMP production is not due to stimulation of Leydig cell phosphodiesterase activity. Pretreatment of the cells with pertussis toxin, to inactivate Gi, was also without effect on arachidonic acid inhibition of LH-stimulated cAMP production, but pertussis toxin abolished the inhibitory effects of arachidonic acid when adenylate cyclase was stimulated with forskolin. However, arachidonic acid addition resulted in inhibition of LH- and forskolin-stimulated testosterone production, even if the cells were pretreated with pertussis toxin. It can be concluded that: (1) The inhibitory effect of arachidonic acid is neither due to a decrease of hCG binding to Leydig cells nor to a stimulation of cell phosphodiesterase activity; (2) arachidonic acid modulates cAMP production at two different levels, either by activation of Gi protein and by inhibition of Gs protein or adenylate cyclase; (3) the effect of arachidonic acid on steroidogenesis is also beyond cAMP formation.
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PMID:Different sites of action of arachidonic acid on steroidogenesis in rat Leydig cells. 873 5


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