EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The rate-limiting step in luteal biosynthesis of progesterone consists of cleavage of the side chain of cholesterol by mitochondrial cytochrome P450 side-chain cleavage enzyme (P450scc) to form pregnenolone. Luteal mRNA encoding P450scc, quantitated on selected days of the 16-day ovine estrous cycle, was similar on days 3 and 6, increased by 2-fold on day 9 (P < 0.05) and remained elevated on day 15. Levels of P450scc mRNA on day 15 of pregnancy were not different from those found on any day of the cycle (P < 0.05). To determine whether levels of mRNA encoding P450scc are hormonally regulated, ewes on day 10 of the estrous cycle were injected with hCG or prostaglandin F2 alpha (PGF2 alpha). P450scc mRNA was not increased for up to 36 h after injection of hCG, nor decreased within 8 h after injection of PGF2 alpha (P < 0.05). An assay for P450scc activity was developed which utilized ovine small and large luteal cells in the presence of 22R-hydroxycholesterol and ovine high density lipoprotein. Enzyme activity was quantitated by measurement of progesterone production. In small luteal cells activation of the protein kinase A (PKA) second-messenger system by treatment with LH resulted in 910% increase in progesterone production without altering activity of P450scc. Activation of the protein kinase C (PKC) second-messenger system with phorbol 12-myristate 13-acetate caused a 51% reduction in progesterone secretion from large luteal cells but did not alter activity of P450scc. These findings suggest that in mature luteal tissue steady state levels of mRNA encoding P450scc, and enzyme activity are independent of acute regulation by activation of PKA or PKC second-messenger systems.
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PMID:Regulation of cytochrome P450scc synthesis and activity in the ovine corpus luteum. 782 90

Dehydroepiandrosterone sulfate is the major steroid secretory product of the human fetal adrenal gland. Several factors have been shown to modulate the secretion of this steroid by cultured fetal adrenal cells. In addition to the cytochrome P450 enzymes that are important in steroid biosynthesis, dehydroepiandrosterone sulfotransferase (DST) is likely to be a key regulated enzyme in the formation of sulfated steroids, which are characteristic of the human adrenal cortex, particularly that of the fetus and the adult zona reticularis. In the present investigation, we sought to evaluate the cellular localization of DST in cultures derived from the fetal zone, neocortex, and adrenal capsule and to determine the effects of ACTH and other agonists of the protein kinase-A pathway on the abundance of DST in such cells. Cells derived from the fetal zone, neocortex, and adrenal capsule were either precultured for 3-13 days in plastic flasks followed by culture on coverslips or were cultured directly on coverslips in control medium (McCoy's 5A medium that contained 5% fetal bovine serum) or control medium plus ACTH, forskolin, or dibutyryl cAMP for 1-4 days. Cells were fixed in buffered formalin and then immunostained for DST by use of a rabbit polyclonal antiserum prepared against human liver DST. DST immunoreactivity was abundant in freshly isolated cortical cells derived from fetal zone and neocortex. DST immunoreactivity was still observable in fetal zone and neocortex cells as well as in cells prepared from enzymatic digests of adrenal capsule after scraping off adherent neocortex cells following culture for 9-14 days in control medium. Adrenal fibroblasts were negative for DST. DST abundance in cortical cells was increased in cultures supplemented with ACTH, forskolin, or dibutyryl cAMP compared to that in cultures grown in control medium alone. The results of Western blot analyses of DST in these cells were consistent with the immunocytochemical data. These results suggest that DST is present in both fetal zone and neocortex cells of the human fetal adrenal at midgestation and that the production of DST is stimulated by ACTH and agonists of the protein kinase-A signal transduction pathway in the human fetal adrenal gland.
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PMID:Immunocytochemical analyses of dehydroepiandrosterone sulfotransferase in cultured human fetal adrenal cells. 777 16

The present study examines the effects of mammalian insulin and insulin-like growth factor-I (IGF-I) on steroid production by goldfish vitellogenic and prematurational full-grown ovarian follicles in vitro. Insulin (0.4-40 micrograms/ml) had no effect on its own, but potentiated human chorionic gonadotropin (hCG) and 25-hydroxycholesterol-stimulated testosterone production by prematurational full-grown follicles in both a dose- and time-dependent manner. By comparison, in vitellogenic follicles insulin (4 micrograms/ml) had no effect on hCG- or 25-hydroxycholesterol-stimulated testosterone and 17 beta-estradiol production. IGF-I (11-100 ng/ml) neither affected basal nor hCG- and 25-hydroxycholesterol-stimulated testosterone production by vitellogenic or prematurational full-grown follicles. Studies to determine the site(s) of action of insulin showed that insulin had no effect on basal cyclic adenosine 3',5'-monophosphate (cAMP) generation, but it enhanced hCG-stimulated cAMP and testosterone production by prematurational full-grown follicles. Insulin also enhanced conversion of 25-hydroxycholesterol to testosterone, but had no effect on the metabolism of pregnenolone, suggesting that insulin either enhances mobilization of cholesterol to the mitochondria or increases the activity of the cytochrome P450 side-chain cleavage enzyme. The ability of insulin to enhance hCG and/or 25-hydroxycholesterol-stimulated testosterone production was blocked by the addition of the protein kinase A (PKA) inhibitor H89, which confirmed that these actions of insulin are exerted, at least in part, by the cAMP/PKA pathway. These findings suggest that insulin, but not IGF-I, is capable of participating in the regulation of ovarian steroid biosynthesis through effects at multiple steps within the steroid cascade and that ovarian responsiveness to insulin changes during the course of follicular development in the goldfish. Together, these results provide new insights into the biological action of insulin in the fish ovary.
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PMID:Insulin as an amplifier of gonadotropin action on steroid production: mechanisms and sites of action in goldfish prematurational full-grown ovarian follicles. 792 56

FSH induces the expression of cholesterol side-chain cleavage cytochrome P450 (P450scc) in rat ovarian granulosa cells. The present study reveals that the tyrphostin AG18, a member of novel protein tyrosine kinase inhibitors, can arrest the FSH-induced synthesis of P450scc with an apparent IC50 of 30 microM. Total inhibition of P450scc expression was achieved at 80 microM AG18. AG18-mediated inhibition of P450scc was also observed when the enzyme was induced by prostaglandin E2, forskolin, or 8-bromo-cAMP. Studies examining functional LH receptors showed that the tyrphostin inhibits the expression of FSH-induced LH receptors. The drug did not affect FSH-induced cAMP accumulation, suggesting that it may interfere with the flow of FSH signal transduction at a site distal intracellular accumulation of cAMP. Control experiments demonstrated that the inhibitory action of AG18 was reversible, did not hamper total protein synthesis in the cells, and did not change the adenine nucleotide (ATP:ADP:AMP) ratio or their levels in the treated cells. A cell-free assay of cAMP-dependent protein kinase showed that the tyrphostin AG18 does not affect this enzyme activity up to concentrations above 200 microM. These results suggest that a putative tyrosine kinase activity is involved in the gonadotropin signal transduction pathway leading to expression of functional genes in ovarian cells.
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PMID:Tyrphostins inhibit follicle-stimulating hormone-mediated functions in cultured rat ovarian granulosa cells. 838 Mar 82

We recently reported a novel intracellular mechanism of renal Na-K-ATPase regulation by agents that increase cell cAMP, which involves protein kinase A-phospholipase A2 and is mediated by one or more arachidonic acid metabolites (Satoh, T., H. T. Cohen, and A. I. Katz. 1992. J. Clin. Invest. 89:1496). The present studies were, therefore, designed to assess the role of eicosanoids in the modulation of Na-K-ATPase activity in the rat cortical collecting duct. The effect of various cAMP agonists (dopamine, fenoldopam, vasopressin, forskolin, and dibutyryl cAMP), which inhibited the pump to a similar extent (approximately 50%), was independent of altered Na entry as it was elicited in the presence of amiloride or nystatin, or when NaCl was replaced with choline Cl. This effect was completely blocked by SKF 525A or ethoxyresorufin, two inhibitors of the cytochrome P450-dependent monooxygenase pathway, or by pretreating the animals with CoCl2, which depletes cytochrome P450. Equimolar concentrations (10(-7) M) of the cyclooxygenase inhibitors indomethacin or meclofenamate caused only a partial inhibition of the cAMP agonists' effect on the pump, whereas nordihydroguaiaretic acid or A 63162, two inhibitors of the lipoxygenase pathway, were without effect. Furthermore, two products of this pathway, leukotriene B4 and leukotriene D4, had no effect on Na-K-ATPase activity, and ICI 198615, a leukotriene receptor antagonist, did not alter pump inhibition by cAMP agonists. Several P450 monoxygenase arachidonic acid metabolites (5,6-epoxyeicosatrienoic acid; 11,12-epoxyeicosatrienoic acid; 11,12-dihydroxyeicosatrienoic acid; and 12(R)-hydroxyeicosatetraenoic acid) as well as PGE2 inhibited the Na:K pump in dose-dependent manner, but the effect of PGE2 was blocked when Na availability was altered, whereas that of 12(R)-HETE remained unchanged. We conclude that the cytochrome P450-monooxygenase pathway of the arachidonic acid cascade plays a major role in the modulation of Na:K pump activity by eicosanoids in the rat cortical collecting duct, and that products of the cyclooxygenase pathway may contribute to pump inhibition indirectly, by decreasing intracellular Na.
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PMID:Intracellular signaling in the regulation of renal Na-K-ATPase. II. Role of eicosanoids. 838 20

To determine the cellular signaling pathways involved in granulosa cell luteinization, known activators of protein kinase-A (LH and FSH) and protein kinase-C [GnRH and phorbol 12-myristate 13-acetate (PMA)] as well as inhibitors of tyrosine kinases (AG18 and genistein) were tested in an in vitro system using specific markers of luteinization (cell hypertrophy, side-chain cleavage cytochrome P450, and progesterone) and ovulation [prostaglandin endoperoxide synthase-2 (PGS-2)]. When preovulatory follicles were incubated in the presence of an ovulatory (500 ng/ml) dose of LH or high GnRH (1 microM), the granulosa cells harvested from these follicles assumed and maintained a stable luteal cell phenotype in vitro. Granulosa cells harvested from follicles incubated in subovulatory doses of LH (5 and 50 ng/ml), lower doses of GnRH (5, 50, and 500 nM), or PMA alone were unable to form a stable luteal cell phenotype. When PMA was combined with subovulatory doses of LH, granulosa cells luteinized, and PGS-2 protein was induced. AG18 (or genistein) blocked agonist induction of luteinization and of PGS-2 mRNA and protein when present during the first 2 h (0-2 h) of follicle incubation, but failed to block these events if added for the last 2 h (5-7 h of incubation). Combined, these results provide evidence to support a primary role for cAMP and protein kinase-A, a supportive but essential role for protein kinase-C, and an obligatory role for tyrosine kinases acting at an early stage in the cascade of events required for luteinization and ovulation.
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PMID:Hormone induction of luteinization and prostaglandin endoperoxide synthase-2 involves multiple cellular signaling pathways. 839 74

We tested the hypothesis that low density lipoprotein (LDL) metabolism and cellular concentrations of gene transcripts of cytochrome P450 cholesterol side-chain cleavage enzyme (P450scc mRNA) are sites of significant protein kinase-C (PKC) action in the long term (48-h) inhibitory modulation of steroid hormone biosynthesis in ovarian granulosa cells. To this end, we used 12-O-tetradecanoylphorbol-13-acetate (TPA) as an activator of PKC and a monolayer culture system of immature swine granulosa cells responsive to insulin and lipoprotein under serum-free conditions. Insulin-regulated LDL metabolism was identified as a major site of TPA-mediated inhibition of steroidogenesis in granulosa cells. Treatment with TPA (30 ng/ml), but not inactive phorbol base, effectively decreased insulin-stimulated [125I]iodo-LDL binding by 75%, internalization by 90%, and degradation by 75%, as well as delivery and utilization of the [3H]cholesterol moiety of LDL in progesterone biosynthesis by intact granulosa cells. Cellular concentrations of P450scc mRNA, as measured by Northern blot hybridization with a 32P-labeled 1-kilobase porcine cDNA clone, were significantly increased by insulin. This insulin effect was virtually abolished by cotreatment with TPA (30 ng/ml). In contrast, accumulation of mRNA transcripts of a non-steroidogenic gene, 3-phosphoglyceraldehyde dehydrogenase, but not 18S ribosomal RNA, was enhanced by TPA. In summary, major inhibitory actions of PKC activation on granulosa cell steroidogenesis are expressed at specific loci of LDL metabolism, including LDL receptor number, internalization, and degradation, as well as the delivery and utilization of the [3H]cholesterol moiety of LDL to intact granulosa cells. Moreover, a PKC activator suppresses the intracellular accumulation of insulin-stimulated P450scc mRNA, but not that of phosphoglyceraldehyde dehydrogenase or 18S ribosomal RNA. The results obtained in this in vitro study suggest that the inhibition by TPA at these different sites along the steroidogenic pathway may be similar to that which occurs via hormones that work through the PKC system, such as prostaglandin F2 alpha.
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PMID:Sites of inhibition of steroidogenesis by activation of protein kinase-C in swine ovarian (granulosa) cells. 847 49

This review highlights contributions from my laboratory in which the sites and mechanisms of action of the adrenocorticotropic hormone (ACTH) in the adrenal cortex have been explored. Early studies showing that ACTH stimulates adrenal steroidogenesis by interacting with specific receptors at the cell surface are summarized. Next, the development of a strategy of genetic analysis to define the signalling events that follow ACTH interaction with its receptor is described. This strategy involved the isolation and characterization of mutant adrenal cell lines harboring specific defects in the ACTH-responsive steroidogenic pathway. I describe the isolation and characterization of several of these mutants and demonstrate how these mutants have helped to establish obligatory roles for adenylyl cyclase, cyclic AMP (cAMP), and cAMP-dependent protein kinase in the steroidogenic actions of ACTH. Finally, some of our studies on the regulated expression of the steroidogenic cytochrome P450 enzymes in Y1 adrenal cells are reviewed. These latter studies have led to the discovery of a novel promoter element and transcription factor (designated steroidogenic factor 1) that participates in the coordinate expression of these cytochrome P450 enzymes and that is required for their regulated expression by ACTH and cAMP.
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PMID:The 1994 Upjohn Award Lecture. Molecular and genetic approaches to the study of signal transduction in the adrenal cortex. 856 76

In vitro studies of human adrenal androgen synthesis are limited because of the difficulties in obtaining adrenals. We describe the use of the human adrenocortical tumor H295 cell line as a model to evaluate mechanisms controlling C19-steroid production. The cells were characterized with regard to responsiveness to a variety of agents as measured by steroid secretion and induction of 17 alpha-hydroxylase cytochrome P450 (P450c17) expression, a key enzyme in C19-steroid production. Forskolin and dibutyryl cAMP, which were more effective than ACTH, enhanced the production of DHEA and androstenedione over a 48-hour treatment period. Agents that act by increasing intracellular calcium (angiotensin II and K+ ions) as well as protein kinase A pathway activators (ACTH, forskolin, and dibutyryl cAMP) individually increased the mRNA levels and activity of P450c17. In addition, angiotensin II but not K+ ions attenuated the increased expression promoted by the kinase A agonists. Thus, the complexity of human adrenal P450c17 expression through multiple signaling pathways may contribute importantly to the diverse patterns of human adrenocortical steroidogenesis.
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PMID:Adrenal androgen biosynthesis with special attention to P450c17. 859 83

To examine the mechanisms by which endothelin (ET) regulates the Na/H antiporter isoform, NHE-3, OKP cells were stably transfected with ET(A) and ET(B) receptor cDNA. In cells overexpressing ET(B), but not ET(A) receptors, ET-1 increased Na/H antiporter activity (JNa/H). This effect was inhibited by a nonselective endothelin receptor blocker and by a selective ET(B) receptor blocker but was not inhibited by an ET(A) selective receptor blocker. In ET(B)-overexpressing cells, 10(-8) M ET-1 inhibited adenylyl cyclase, but protein kinase A inhibition and pertussis toxin pretreatment did not affect Na/H antiporter activation by ET-1. ET-1 caused a transient increase in cell [Ca2+], followed by a sustained increase. Increases in cell [Ca2+] were partially inhibited by pertussis toxin. ET-1-induced increases in J(Na/H) were 50% inhibited by clamping cell [Ca2+] low with BAPTA, and by KN62, a Ca-calmodulin kinase inhibitor. Inhibitors of protein kinase C, cyclooxygenase, lipoxygenase, and cytochrome P450 and cyclic GMP were without effect. In ET(A)-overexpressing cells, ET-1 increased cell [Ca2+] but did not increase JNa/H. In summary, binding of ET-1 to ET(B) receptors increases Na/H antiporter activity in OKP cells, an effect mediated in part by increases in cell [Ca2+] and Ca-calmodulin kinase. Increases in cell [Ca2+] are not sufficient for Na/H antiporter activation.
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PMID:Endothelin(B) receptor activates NHE-3 by a Ca2+-dependent pathway in OKP cells. 861 78

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