UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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The formation of individual complexes between the components of cholesterol side chain cleavage system-cytochrome P450scc, adrenodoxin (Ad) and adrenodoxin reductase (AdR) was kinetically characterized and their association and dissociation rate constants were measured by optical biosensor. The dominant role of interprotein electrostatic interactions in productive complex formation was demonstrated. Despite of the fact that P450scc and AdR complete for the binding with the same or closely placed negatively charged groups on the surface of immobilized Ad, the formation of the AdR/P450scc/Ad ternary complex upon AdR immobilization on dextran was registered. It is shown, that Ad does not bind to AdR immobilized via amino groups AdRim but it is possible only after the preliminary binding of P450scc to AdRim. The life time of such ternary complex, about 15 s, is sufficient for the realization of 5-8 catalytic cycles.
Biochem Mol Biol Int 1999 Feb
PMID:Optical biosensor studies on the productive complex formation between the components of cytochrome P450scc dependent monooxygenase system. 1020 79

We investigated the regulation of steroidogenesis in a cell line of porcine granulosa origin, JC-410. Cells responded to the protein kinase-A activators, cholera toxin and forskolin, with increased accumulation of intracellular cAMP. Histochemically, cells were shown to contain 3beta-HSD, the enzyme which converts pregnenolone to progesterone. The JC-410 cells produced progesterone and responded to the protein kinase-A activators with an increase in progesterone synthesis. Progesterone levels were also increased by 25-hydroxycholesterol, pregnenolone, estradiol and androstenedione. Follicle-stimulating hormone and luteinizing hormone had no effect on cAMP or progesterone accumulation. Androstenedione was required for the synthesis of estradiol by JC-410 cells. Steady-state levels of mRNA for the steroidogenic enzymes 3beta-HSD and P450scc were increased by treatment with cholera toxin, whereas P450arom was not changed. These cells express the steroidogenic enzymes genes in a similar fashion to primary cultures of porcine granulosa cells. The JC-410 cells may represent a valuable model to study second messenger regulation and the molecular mechanisms involved in steroidogenesis in granulosa cells.
Mol Cell Endocrinol 1999 Feb 25
PMID:Regulation of steroidogenesis in jc-410, a stable cell line of porcine granulosa origin. 1022 74

We investigated homologous and heterologous downregulation of FSH receptor mRNA in porcine granulosa cells from ovaries of immature pigs. Cultures were treated with 0, 40, or 200 ng/ml porcine FSH or medium and terminated at 24 hr intervals for Northern analysis of FSH receptor and cytochrome P450 side chain cleavage (P450scc) mRNA, and for radioimmunoassay of progesterone. Cells luteinized over 96 hr, and control cultures displayed increases in P450scc (8-10 fold) and FSH receptor (2 fold) mRNA and progesterone (100 fold). FSH reduced FSH receptor mRNA by 50-90%, increased P450scc mRNA 8 fold within 48 hr, and elevated progesterone logarithmically over 96 hr. Luteinized cells, (after 96 hr) received FSH or LH (1-200 ng/ml) or prostaglandin E2 (0.01-1.0 mg/ml) for 6 hr resulting in increased P450scc mRNA (2-8 fold), and progesterone (2-5 fold), and reduced FSH receptor mRNA. FSH (200 ng/ml) or the cAMP analog, dbcAMP (1 mM) for 0-24 hr reduced FSH receptor mRNA to 15% of control from 4-24 hr and elevated P450scc mRNA at 4 and 6 hr, respectively, to maxima at 12-24 hr. Forskolin (1-10 mM) increased P450scc mRNA (2-3 fold) and downregulated FSH receptor mRNA, effects reversed by the inhibitor of cAMP, rpcAMPs. Both epidermal growth factor, and the activator of the protein kinase C pathway, phorbol 12-myristate, 13-acetate (PMA) at 10 nM reduced FSH receptor mRNA. We conclude that downregulation of FSH receptor mRNA in luteinized granulosa cells is mediated by both homologous and heterologous ligands which employ cAMP, and that growth factors that activate the PKC pathway reduce FSH receptor and P450scc mRNA abundance.
Mol Reprod Dev 1999 Jun
PMID:Homologous and heterologous ligands downregulate follicle-stimulating hormone receptor mRNA in porcine granulosa cells. 1033 58

To test the hypothesis that the hyperandrogenemia associated with polycystic ovary syndrome (PCOS) results from an intrinsic abnormality in ovarian theca cell steroidogenesis, we examined steroid hormone production, steroidogenic enzyme activity, and mRNA expression in normal and PCOS theca cells propagated in long-term culture. Progesterone (P4), 17alpha-hydroxyprogesterone (17OHP4), and testosterone (T) production per cell were markedly increased in PCOS theca cell cultures. Moreover, basal and forskolin-stimulated pregnenolone, P4, and dehydroepiandrosterone metabolism were increased dramatically in PCOS theca cells. PCOS theca cells were capable of substantial metabolism of precursors into T, reflecting expression of an androgenic 17beta-hydroxysteroid dehydrogenase. Forskolin-stimulated cholesterol side chain cleavage enzyme (CYP11A) and 17alpha-hydroxylase/17,20-desmolase (CYP17) expression were augmented in PCOS theca cells compared with normal cells, whereas no differences were found in steroidogenic acute regulatory protein mRNA expression. Collectively, these observations establish that increased CYP11A and CYP17 mRNA expression, as well as increased CYP17, 3beta-hydroxysteroid dehydrogenase, and 17beta-hydroxysteroid dehydrogenase enzyme activity per theca cell, and consequently increased production of P4, 17OHP4, and T, are stable properties of PCOS theca cells. These findings are consistent with the notion that there is an intrinsic alteration in the steroidogenic activity of PCOS thecal cells that encompasses multiple steps in the biosynthetic pathway.
Mol Endocrinol 1999 Jun
PMID:Augmented androgen production is a stable steroidogenic phenotype of propagated theca cells from polycystic ovaries. 1037 93

Ablation of pituitary gonadotrophs was obtained in transgenic mice expressing diphtheria toxin A (DTA) under control of the -313/+48 bovine glycoprotein hormone alpha-subunit (alphaSU) promoter, previously shown to be active in mouse gonadotrophs but not in thyrotrophs. Development of hormone-producing cell types was assessed on the day of birth by computer-assisted image analysis on paraffin-embedded, immunostained pituitary sections. Six out of 50 transgenic F0 ('founder') mice (3 males and 3 females) showed a nearly complete disappearance of gonadotrophs but not of thyrotrophs. The number of lactotrophs and the relative area occupied by PRL-immunoreactivity were significantly reduced in the gonadotroph-depleted mice. The size of lactotroph clusters was smaller in the absence of gonadotrophs. The number and immunoreactive area of corticotrophs and somatotrophs, on the other hand, were not significantly affected by gonadotroph ablation. Based on the reported evidence that fetal ovaries do not produce steroid hormones as a result of lack of expression of at least three of the steroidogenic enzymes, P450scc, P450c17, and P450arom, the present observations can hardly be explained by a decline in estrogen levels due to gonadotroph ablation. Rather, the present data indicate that gonadotrophs directly stimulate the development of lactotrophs during fetal and early postnatal life, consistent with previous in vitro observations, and/or that gonadotrophs may share a cell-lineage relationship with a subpopulation of lactotrophs.
Mol Cell Endocrinol 1999 Apr 25
PMID:Targeted ablation of gonadotrophs in transgenic mice affects embryonic development of lactotrophs. 1041 7

The objective of this investigation was to determine the effect of steroid hormones on the synthesis of progesterone in a stable porcine granulosa cell line, JC-410. We also examined the effect of steroid hormones on expression of the genes encoding the steroidogenic enzymes, cytochrome P450-cholesterol side chain cleavage (P450scc) and 3beta-hydroxy-5-ene steroid dehydrogenase (3beta-HSD). We observed that 48 h exposure of the JC-410 cells to estradiol-17beta (estradiol), androstenedione, 5alpha-dihydrotestosterone, levonorgestrel, and 5-cholesten-3beta, 25-diol (25-hydroxycholesterol) resulted in stimulation of progesterone synthesis. 25-Hydroxycholesterol augmented progesterone synthesis stimulated by estradiol, 5alpha-dihydrotestosterone, levonorgestrel and 8-bromoadenosine 3':5'-cyclic monophosphate (8-Br-cAMP). This increase in progesterone synthesis was additive with estradiol, 5alpha-dihydrotestosterone and levonorgestrel, and synergistic with 8-Br-cAMP. Cholera toxin, progesterone, levonorgestrel and androstenedione increased P450scc mRNA levels, whereas estradiol had no effect. Cholera toxin, progesterone and levonorgestrel increased 3beta-HSD mRNA levels, but estradiol and androstenedione had no effect. The results were interpreted to mean that estrogens, androgens and progestins regulate progesterone synthesis in the JC-410 cells. The effect of androgens appears to be mediated by stimulation of P450scc gene expression while progestins stimulate both P450scc and 3beta-HSD gene expression. Our results support the concept that progesterone is an autocrine regulator of its own synthesis in granulosa cells.
J Steroid Biochem Mol Biol 1999 Mar
PMID:Steroid regulation of progesterone synthesis in a stable porcine granulosa cell line: a role for progestins. 1041 31

The first and rate-limiting step in the synthesis of all steroid hormones is the conversion of cholesterol to pregnenolone by the mitochondrial enzyme, P450scc. Tropic hormones such ACTH and gonadotropins induce steroidogenesis via cAMP by elaborating intracellular cAMP which stimulates P450scc activity in two distinct ways. Chronic stimulation (h to days) occurs through the induction of P450scc gene transcription leading to increased P450scc protein and consequent increased steroidogenic capacity. Acute regulation, over minutes, occurs through the phosphorylation of preexisting StAR and the rapid synthesis of new StAR protein. StAR, the steroidogenic acute regulatory protein, increases the flow of cholesterol into mitochondria, thus regulating substrate availability to whatever amount of P450scc is available. In the absence of StAR, up to 14% of maximal StAR-induced level of steroidogenesis persists as StAR-independent steroidogenesis. Congenital lipoid adrenal hyperplasia, an autosomal recessive disorder in which conversion of cholesterol to pregnenolone is severely impaired, results in female genitalia in 46,XY genetic males, variable onset of a severe salt-losing crisis in the first months of life, but normal feminization and cyclical vaginal bleeding in 46,XX females. Lipoid CAH was once thought to be due to P450scc mutations, but in fact homozygous P450scc mutations cannot exist in human beings as they would prohibit placental progesterone production, causing spontaneous abortion of the affected fetus. Lipoid CAH is caused by StAR mutations, which result in tropic hormone-induced intracellular accumulation of cholesterol in the adrenals and gonads. Our two-hit model, which considers the persistence of StAR-independent steroidogenesis and the differences in the fetal and postnatal ages at which the testis, adrenal zona glomerulosa, adrenal zona fasciculata and ovary are stimulated, predicts and explains all of the various clinical manifestations of lipoid CAH. Structure function studies of StAR show that the critical domains for biological activity reside in the protein's carboxy-terminus. When the N-terminal mitochondrial targeting sequences are deleted and the resulting N-62 StAR remains in the cytoplasm, it retains the ability to stimulate steroidogenesis both in intact cells or when added to isolated mitochondria in vitro. These observations suggest that StAR acts on the outer mitochondrial membrane to promote sterol translocation to P450scc, and that the importation of StAR into mitochondria terminates its action. Data from circular dichroism and Fourier-transform infrared spectroscopy show that the mutant StAR proteins in lipoid CAH are misfolded, suggesting disrupted interaction with another protein. Preliminary data suggest that StAR facilitates cholesterol desorption from membranes, stimulating transfer from the outer mitochondrial (donor) membrane to the inner mitochondrial (acceptor) membrane.
J Steroid Biochem Mol Biol
PMID:Molecular pathology and mechanism of action of the steroidogenic acute regulatory protein, StAR. 1041 87

The steroidogenic acute regulatory (StAR) protein, which mediates cholesterol delivery to the inner mitochondrial membrane and the P450scc enzyme, has been shown to require a mitochondrial electrochemical gradient for its activity in vitro. To characterize the role of this gradient in cholesterol transfer, investigations were conducted in whole cells, utilizing the protonophore carbonyl cyanide m-chlorophenylhydrazone (m-CCCP) and the potassium ionophore valinomycin. These reagents, respectively, dissipate the mitochondrial electrochemical gradient and inner mitochondrial membrane potential. Both MA-10 Leydig tumor cell steroidogenesis and mitochondrial import of StAR were inhibited by m-CCCP or valinomycin at concentrations which had only minimal effects on P450scc activity. m-CCCP also inhibited import and processing of both StAR and the truncated StAR mutants, N-19 and C-28, in transfected COS-1 cells. Steroidogenesis induced by StAR and N-47, an active N-terminally truncated StAR mutant, was reduced in transfected COS-1 cells when treated with m-CCCP. This study shows that StAR action requires a membrane potential, which may reflect a functional requirement for import of StAR into the mitochondria, or more likely, an unidentified factor which is sensitive to ionophore treatment. Furthermore, the ability of N-47 to stimulate steroidogenesis in nonsteroidogenic HepG2 liver tumor cells, suggests that the mechanism by which StAR acts may be common to many cell types.
J Steroid Biochem Mol Biol
PMID:Effects of disruption of the mitochondrial electrochemical gradient on steroidogenesis and the Steroidogenic Acute Regulatory (StAR) protein. 1041 88

Bovine cholesterol side-chain cleavage cytochrome P450 (P450scc; product of the CYP11A gene) gene expression is regulated by gonadotropins via cAMP in the ovary, and by ACTH via cAMP in adrenal cortical cells. Previously, we characterized response elements located at -57/-32 and at -111/-101 bp in the 5'-flanking region of the bovine CYP11A gene required for cAMP-stimulated transcription in both mouse Y-1 adrenal tumor cells and bovine ovarian cells in primary culture, which bind SF-1 (or Ad4-BP) and Sp1, respectively. The role of these transcription factors in CYP11A transcription was further confirmed by deletion and mutation analyses. In addition, results obtained employing a double mutation of the Sp1- and SF-1-binding sites and a mammalian two-hybrid system indicate that Sp1 and SF-1 function cooperatively in the transactivation of the bovine CYP11A promoter in both bovine luteal cells and Y-1 cells. Here we report that SF-1 and Sp1 are able to associate with one another in vitro and in vivo. The NH2-terminal region of SF-1, especially the DNA-binding domain, is the binding site for Sp1. In addition, as CBP is a common coactivator required for the transcriptional activity of numerous transcription factors including nuclear receptors, we investigated whether CBP functions as a cofactor for the regulation of bovine CYP11A promoter activity. We show here that CBP enhanced the PKA-induced CYP11A promoter activity, while a double mutation of both Sp1 and SF-1 sites within the CYP11A promoter region abolished CBP-induced activity. Furthermore, CBP stimulated Sp1-dependent transactivation, and a CBP/Sp1 complex in vivo was demonstrated by a co-immunoprecipitation assay. Also, CBP potentiated the transcriptional activity of GAL4-SF-1 in the presence of PKA. Thus, the cooperation between SF-1 and Sp1, required for the regulation of bovine CYP11A gene expression, is mediated by a direct protein-protein interaction and/or the common coactivator CBP.
Mol Cell Endocrinol 1999 Jul 20
PMID:Molecular mechanism for cooperation between Sp1 and steroidogenic factor-1 (SF-1) to regulate bovine CYP11A gene expression. 1045 66

The site of inhibition, by melatonin, of GnRH-dependent testosterone secretion was investigated in adult rat Leydig cells cultured in vitro. The various effects downstream of the binding of GnRH to its own receptor were isolated and mimicked by specific drugs. Testosterone secretion was then evaluated after 3 h stimulation with GnRH, thapsigargin (1 microM), phorbol-12-myristate-13-acetate (100 nM), arachidonic acid (20 microM), and ionomycin (1 microM) in the presence or absence of melatonin (215 nM). The effect of melatonin on the GnRH-induced changes in cytoplasmic calcium concentration ([Ca(2+)](i)) was also studied, using Fura-2 as fluorescent Ca(2+) indicator. Melatonin attenuated the increase in [Ca(2+)](i) and inhibited the testosterone secretion induced by GnRH, but not that induced by ionomycin. Both ionomycin and thapsigargin potentiated GnRH-induced testosterone secretion; however, ionomycin, but not thapsigargin, partially prevented the inhibitory effect of melatonin on cells stimulated with GnRH. The effect of melatonin was probably dependent on the binding of melatonin to its Gi-protein-coupled receptor, as the inhibitory effect on GnRH-induced secretion was supressed in cells pretreated with pertussis toxin in a concentration of 180 ng/ml for 20 h. Assay of 17-hydroxy-progesterone showed that, irrespective of the treatment, cells cultured with melatonin secreted greater amounts than controls. We conclude that melatonin reduces GnRH-induced testosterone secretion by 1) decreasing [Ca(2+)](i), through impairment of the GnRH-dependent release of Ca(2+) from intracellular stores and 2) blocking 17-20 desmolase enzymatic activity, an effect that occurs irrespective of changes in [Ca(2+)](i).
J Mol Endocrinol 1999 Dec
PMID:A novel mechanism for the melatonin inhibition of testosterone secretion by rat Leydig cells: reduction of GnRH-induced increase in cytosolic Ca2+. 1060 75

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