Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Regulation of cAMP dependent protein kinase activity from rat ovarian cells has been studied in response to luteinizing hormone and human chorionic gonadotropin. Treatment of cells with human chorionic gonadotropin in concentration range of 2.5ng-1000ng/ml resulted in increased accumulation of cAMP,activation of protein kinase followed by the stimulation of progesterone synthesis. A sixfold increase in the activity ratio, defined as the ratio of protein kinase stimulated in situ to that maximally stimulated in vitro by exogenous cAMP, was observed with 1ug/ml of hCG. This concentration of hormone also produced a ten-fold increase in cAMP and a thirty-to forty-fold increase in progesterone synthesis. Protein kinase activation was specific for LH and hCG, as other polypeptide hormones were without any appreciable effect. The stimulation of protein kinase persisted even after the elevated cAMP level began to fall. It appears that the activation of protein kinase is an obligatory early event that mediates an increase in gonadotropin stimulated progesterone synthesis.
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PMID:Regulation of cyclic adenosine 3', 5' -mono-phosphate dependent protein kinase of rat ovarian cells by luteinizing hormone and human chorionic gonadotropin. 18 51

The adenosine 3', 5'-cyclic monophosphate (cyclic AMP)-dependent protein phosphokinase of rat interstitial cells was characterized by ion-exchange chromatography and sucrose density gradient centrifugation. The 0.2 M NaCl fraction from DEAE-Sephadex showed a small 2.9-S peak of basal enzyme activity, and a large 6.5-S peak of cyclic AMP-dependent protein kinase activity; fractions eluted from DEAE-Sephadex with 0.3-0.5 M NaCl contained a major 3.8-S peak of cyclic AMP-dependent enzyme activity. Activation of protein kinase in cell extracts by cyclic AMP, and in intact interstitial cells by trophic hormone, caused a major shift of enzyme activity to the 2.9-S cyclic AMP-dependent form which was eluted from DEAE-Sephadex by 0.2 M NaCl. These results are consistent with the presence of two distinct protein kinase holoenzymes, with a common 2.9-S catalytic subunit. During hormonal activation of protein kinase in dispersed interstitial cells by 10-10 M human chorionic gonadotropin (hCG), conversion to the 2.9-S catalytic subunit was observed between 2 and 30 min of incubation. Protein kinase activity was correlated with cyclic AMP production, and full enzyme activation occurred at the time of maximum intracellular cyclic AMP concentration. The presence of two forms of cyclic AMP-dependent protein kinase in the Leydig cell provides a potential mechanism whereby progressive occupancy of gonadotropin receptors could evoke a series of discrete target cell responses.
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PMID:Characterization of two forms of cyclic 3', 5'-adenosine monophosphate-dependent protein kinase in rat testicular interstitial cells. 18 70

Discrepancies between adenosine 3':5'-cyclic monophosphate (cAMP) and steroid production have been frequently observed in isolated target cells stimulated by low concentrations of trophic hormone. This dissociation is particularly marked in the interstitial cells of the testis, where testosterone production is elicited by gonadotropin concentrations in the picomolar range. Because of these observations, and a disparity between steroidogenesis and protein kinase (ATP: protein phosphotransferase, EC 2.7.1.37) activation in Leydig cells, the role of cAMP as a mediator of the acute steroidogenic response has been questioned. This problem has been further analyzed by assay of free and occupied cAMP-binding sites of the regulatory subunit of protein kinase in basal and hormone-stimulated cells. Free sites were measured by a [(3)H]-cAMP-binding assay, and occupied sites were measured by radioimmunoassay of endogenous cAMP eluted from receptor protein. After stimulation of purified Leydig cells with 0.1-10 pM human chorionic gonadotropin, a dose-dependent decrease in available [(3)H]cAMP-binding sites was observed, with no change in binding affinity. The reduction in cAMP-binding sites was equivalent to the increase in occupancy of cAMP receptors by endogenous nucleotide formed during gonadotropin action. Fractional occupancy of cAMP receptors rose progressively from basal values of 0.2-0.40 to full saturation as intracellular cAMP rose 10- to 30-fold during hormone stimulation. The testosterone dose-response curve was coincident with the initial part of the cAMP-receptor occupancy curve. These changes in endogenous cAMP binding to the regulatory subunit were accompanied by a significant increase in protein kinase activity in gonadotropin-stimulated Leydig cells. These observations provide direct evidence for the role of cAMP and protein kinase during hormonal activation of steroidogenesis in the Leydig cell by low concentrations of gonadotropin.
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PMID:Intermediate role of adenosine 3':5'-cyclic monophosphate and protein kinase during gonadotropin-induced steroidogenesis in testicular interstitial cells. 19 85

Two inhibitors of cyclic AMP phosphodiesterase (3':5'-cyclic-AMP 5'-nucleotidohydrolase, EC 3.1.4.17), theophylline and papaverine, inhibit the maturation of Xenopus laevis oocytes induced by four different stimuli: human chorionic gonadotropin, progesterone, testosterone, and lanthanum ions. Addition of 1 mM cyclic AMP to the medium delays maturation by approximately 2 hr. Papaverine, theophylline, and cyclic AMP inhibit amino acid incorporation into oocyte proteins by 50% or more but do not inhibit amino acid uptake. The capacity of theophylline to block maturation and protein synthesis is reversed in a parallel fashion by addition of 1-5 mM calcium ion to the medium. Addition of papaverine, theophylline, and cycloheximide to oocytes at different times after hormonal treatment shows that the step sensitive to blockage by the three drugs is coincident and precedes germinal vesicle breakdown by about 1.5 hr. Theophylline and papaverine do not increase endogenous cyclic AMP levels in oocytes but do block the decrease of cyclic AMP levels observed 3 hr after progesterone treatment. Both drugs inhibit oocyte cyclic AMP phosphodiesterase measured in vivo and severely inhibit the stimulus of calcium uptake caused by progesterone and human chorionic gonadotropin. These results suggest that cyclic AMP, theophylline, and papaverine may block oocyte maturation by inhibiting protein synthesis, possibly via a cyclic AMP-dependent protein kinase as shown in reticulocytes [Datta, A., De Haro, C., Sierra, J. & Ochoa, S. (1977) Proc. Natl. Acad. Sci., USA 74, 1463-1467].
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PMID:Amphibian oocyte maturation and protein synthesis: related inhibition by cyclic AMP, theophylline, and papaverine. 20 89

When a single injection of 500 I.U. of human chorionic gonadotropin (hCG) is given to rats there is an initial acute rise of plasma testosterone and of testicular content for both cyclic AMP and testosterone. This response correlates with an increase in both lyase and 17 alpha-hydroxylase activities. Thereafter both plasma and testicular testosterone decline and do not increase after a second injection of hCG. During this period of desensitization, isolated Leydig cells were insensitive to the steroidogenic stimulatory effect of both hCG and dibutyryl cyclic AMP. The post-cyclic AMP block is not due to an alteration of the cyclic AMP-dependent protein kinase but it is correlated with a decrease in both lyase and 17 alpha-hydroxylase activities of the Leydig cell's microsomes. This decrease is not caused by the absence of the recently described cytosol activator of this enzyme because its addition did not restore the enzymatic activity. Within 60 to 96 h after hCG injection there was a spontaneous increase of both plasma and testicular testosterone and this parallels the recovery of lyase and 17 alpha-hydroxylase activities. These results suggest that both enzymatic activities are regulated, directly or indirectly, by hCG, and that this is partly responsible for the hCG-induced steroidogenic refractoriness of Leydig cells.
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PMID:Testicular steroidogenesis after human chorionic gonadotropin desensitization in rats. 22 76

When Chinese Hamster Ovary (CHO) cells, incubated in serum-free medium, are exposed to gonadotropins a transient increase in the intracellular concentration of cyclic AMP is observed. Maximum accumulation of cyclic AMP is noted 30 minutes after addition of either human chorionic gonadotropin (hCG) or follicle stimulating hormone (FSH). Within one to two hours after hormone addition, the intracellular concentrations of cyclic AMP have returned to basal levels. The enhancement of intracellular cyclic AMP levels by hCG is hormone concentration dependent, with maximal stimulation observed at 10 micrograms/ml hCG. The exogenous addition of gonadotropins also slows the growth rate of CHO cells. This effect on growth seems to be mediated through cyclic AMP since the growth rate of a mutant of CHO cells defective in the catalytic subunit of cyclic AMP dependent protein kinase is only slightly decreased.
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PMID:Gonadotropin stimulation of cyclic AMP levels in Chinese hamster ovary cells in culture. 22 77

We have investigated the effects of steroidogenesis inducing protein (SIP) (Endocrinology (1990) 126, 3043-3052) on steroid production in MA-10 mouse Leydig tumor cells. Our results indicate that SIP results in the stimulation of progesterone production in MA-10 cells to the same extent obtained when maximal doses of luteinizing hormone (LH), human chorionic gonadotropin (hCG) and dibutyryl cAMP (dbcAMP) are used. It was also observed that the increased progesterone production in response to SIP was not accompanied by an increase in intracellular cAMP levels as was seen following hCG stimulation. In addition, stimulation of progesterone production using maximal doses of LH, hCG and dbcAMP could be further increased by the addition of SIP to the incubation medium also indicating that this steroidogenic activity was acting through a differential signal transducing system than these hormones. That SIP was not acting through the cAMP second messenger pathway was also demonstrated by its lack of sensitivity to the neutralizing effects of a monoclonal antibody to LH as well as by its insensitivity to the protein kinase A inhibitor HA 1004 while both of these treatments significantly decreased LH and hCG stimulated steroid production. Lastly, SIP was unable to elicit the induction of several mitochondrial proteins which have previously been shown to be synthesized in MA-10 cells in response to LH, hCG and dbcAMP. Our results indicate that SIP stimulates the production of high levels of steroids through a signal transduction pathway which is distinct from that employed by trophic hormone stimulation in Leydig cells.
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PMID:Effects of steroidogenesis inducing protein (SIP) on steroid production in MA-10 mouse Leydig tumor cells: utilization of a non-cAMP second messenger pathway. 131 53

The purpose of this study was to determine how RI alpha, the R subunit of the type I cAMP-dependent protein kinase, is regulated in rabbit ovarian follicles in response to the preovulatory luteinizing hormone surge. When soluble extracts from rabbit preovulatory follicles and 7-day-old corpora lutea were photoaffinity-labeled with 8-N3-[32P]cAMP, 3-fold more RI alpha was detected in corpora lutea than in follicles. Based on DEAE-cellulose chromatography, both type I holoenzyme and free RI alpha increased during luteinization. Western blot analysis of soluble extracts obtained from follicles and corpora lutea at various time points after human chorionic gonadotropin (hCG) injection revealed a 6-10-fold increase in RI alpha protein by 5 h after hCG injection. However, based on Northern blot analysis and solution hybridization/RNase protection assays, this increase in RI alpha protein was not due to an increase in RI alpha mRNA. These results suggested that RI alpha subunit levels were post-transcriptionally regulated. Half-life determinations indicated a 2.1-fold increase in the stability of RI alpha when follicles were incubated in the presence of hCG. The effect of hCG on the stability of RI alpha could also be mimicked by forskolin, thus suggesting that a rise in cAMP levels in follicles during the luteinizing hormone surge plays a role in RI alpha subunit stability. We conclude that RI alpha protein is stabilized in follicles by hCG treatment and the consequent rise in follicular cAMP levels.
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PMID:Luteinization-associated changes in protein stability of the regulatory subunit of the type I cAMP-dependent protein kinase. 132 Nov 43

The effect of activation of calcium- and phospholipid-dependent protein kinase (protein kinase C) on human chorionic gonadotropin (hCG) release by cultured trophoblast cells was studied and a role of protein kinase C in the GnRH-mediated hCG release was also evaluated. Both GnRH and 1-oleoyl-2-acetylglycerol (OAG), a protein kinase C activator, stimulated hCG release after 3 h incubation in a dose-dependent manner with ED50 of 55 nmol/l and 4.0 nmol/l, respectively. A tumor-promoting phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA) also stimulated hCG release while two non-tumor-promoting compounds, phorbol and 4 alpha-phorbol, failed to stimulate hCG release. hCG release by maximal effective dose of GnRH (10 mumol/l) or OAG (1 mumol/l) was further stimulated when cells were incubated with same concentrations of GnRH and OAG. OAG-stimulated hCG release was completely inhibited by a protein kinase C inhibitor, H-7, with ID50 of 23 nmol/l while H-7 did not affect GnRH-mediated hCG release. These results indicate that GnRH-stimulated hCG release is not mediated by protein kinase C pathway, however, the secretion of hCG is also regulated by the mechanism that involves protein kinase C activation.
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PMID:Effects of diacylglycerol and gonadotropin-releasing hormone on human chorionic gonadotropin release by cultured trophoblast cells. 163 9

Numerous studies have indicated that treatment of Leydig cells with gonadotropin results in increased levels of intracellular cAMP, binding of cAMP to and activation of protein kinase A, phosphorylation of proteins, synthesis of new proteins and eventually, stimulation of steroidogenesis. In addition, recent studies have indicated that protein phosphorylation is an indispensable event in the production of steroids in response to hormone stimulation in adrenal cells. Because of the important role of phosphorylation in steroidogenic regulation, we investigated the effects of human chorionic gonadotropin (hCG), dibutyryl cyclic AMP (dbcAMP), forskolin and the phorbol ester, phorbol-12-myristate 13-acetate (PMA) on protein phosphorylation in MA-10 mouse Leydig tumor cells. Cells were stimulated with different steroidogenic compounds in the presence of [32P]orthophosphoric acid for 2 h and phosphoproteins analyzed by two-dimensional polyacrylamide gel-electrophoresis (PAGE). Results demonstrated an increase in the phosphorylation of four proteins (22 kDa, pI 5.9; 24 kDa, pI 6.7 and 30 kDa, pI 6.3 and 6.5) in response to 34 ng/ml hCG, 1 mM dbcAMP and 100 microM forskolin. Conversely, treatment of cells with PMA increased the phosphorylation of only one of these proteins (30 kDa, pI 6.3). At least two of these proteins (30 kDa, pI 6.5 and 6.3) appear to be identical to proteins which we and others have shown to be synthesized in response to trophic hormone stimulation in adrenal, luteal and Leydig cells. In addition, they also appear to be identical to adrenal cell mitochondrial proteins demonstrated to be phosphorylated in response to ACTH. These data indicate that proteins similar to those phosphorylated in adrenal cells in response to ACTH are phosphorylated in hormone stimulated testicular Leydig cells and that these proteins may be involved in steroidogenic regulation.
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PMID:Effect of different steroidogenic stimuli on protein phosphorylation and steroidogenesis in MA-10 mouse Leydig tumor cells. 165 16


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