Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Human follicular fluid contains the insulin-like growth factor-binding protein (IGFBP-1) synthesized by ovarian granulosa cells. We studied the regulation of IGFBP-1 production by the granulosa-luteal cells from the hyperstimulated follicles of patients attending an in vitro fertilization program. The cells were first allowed to attach and recover from the hyperstimulation for 2 days. Then, a protein kinase-C activator, 12-O-tetradecanoyl phorbol-13-acetate (TPA), and adenylate cyclase activators, gonadotropins, FSH, hCG, cholera toxin, or prostaglandin E2 (PGE2) were added to the cells. The gonadotropins failed to increase IGFBP-1 production, whereas it was enhanced by TPA and to a lesser extent by cholera toxin and PGE2. The maximal response to TPA occurred at the concentration of 1.0 ng/mL, and the enhancing effect of TPA was detected at 24 h. PGE2 stimulated IGFBP-1 production; the lowest effective concentration was 10(-8) mol/L. The mean highest response was 4.3-fold and occurred at the PGE2 concentration of 10(-5) mol/L. The effect of PGE2 on IGFBP-1 production became detectable at 24 h, and it continued to increase up to 72 h. PGE2 also increased granulosa-luteal cell progesterone production in a dose- and time-dependent manner. Incorporation of [35S]methionine into immunoreactive IGFBP-1, as detected by sodium dodecyl sulfate-polyacrylamide electrophoresis and fluorography, was also increased by TPA. This suggests that TPA accelerated the synthesis of IGFBP-1. Our results indicate that the production of IGFBP-1 by human granulosa-luteal cells can be regulated both via protein kinase-C- and adenylate cyclase-dependent pathways.
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PMID:Regulation of insulin-like growth factor-binding protein-1 production in human granulosa-luteal cells. 255 84

Prostaglandin endoperoxide synthase (PGS) catalyzes the rate-limiting step in the synthesis of prostaglandins E and F2 alpha that are obligatory for ovulation. To understand the molecular mechanisms by which LH regulates the induction of PGS in rat preovulatory (PO) follicles, we established an in vitro system which mimics in vivo induction of the enzyme. We show that the rapid increase in PGS enzyme: 1) is stimulated by LH, FSH, and forskolin (cAMP) in a time- and dose-dependent manner that is distinct from changes in steroidogenic enzymes analyzed in the same follicles; 2) is unaltered by end products (PGE and PGF2 alpha) of the reaction or inhibitors (indomethacin) of enzyme activity; 3) is blocked by inhibitors of transcription (alpha-amanitin) and translation (cycloheximide) at a step distal to production of cAMP and activation of A-kinase. Analyses of PGS mRNA by Northern blots using a mouse PGS cDNA probe revealed a PGS transcript of 2.8 kilobases that was present but in low abundance in PO follicles and decreased rapidly (1-4 h) as a consequence of LH/human CG stimulation. This hormone-induced decrease in PGS mRNA appeared to be transient because PGS transcripts were present in corpora lutea at a level similar to that in PO follicles. These results raise the possibility that the marked increase in PGS enzyme in granulosa cells of PO follicles that occurs as a consequence of the LH/human CG surge may not involve a cAMP regulated increase in transcription of the PGS gene itself. Or, if increased transcription of PGS mRNA does occur, it is rapid and coupled with cotranslational degradation of the mRNA. Alternatively, transcriptional (alpha-amanitin-sensitive) regulation of a separate gene may be obligatory for increased translation of PGS mRNA or posttranslational modification (stabilization?) of the enzyme. In summary, the LH-stimulated appearance of PGS in granulosa cells of PO follicles before ovulation is mediated by cAMP in a complex manner involving transcriptional regulation (PGS gene?) and translational control of PGS mRNA. The transient appearance of the PGS enzyme represents a unique pattern of response by granulosa cells of PO follicles to LH/cAMP and thereby may involve novel intracellular factors and regulatory processes.
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PMID:Rapid induction of prostaglandin endoperoxide synthase in rat preovulatory follicles by luteinizing hormone and cAMP is blocked by inhibitors of transcription and translation. 255 3

The sequence of events within the ovary during the process of ovulation discussed in this review is schematically represented in Fig. 1. It is obvious that LH, perhaps with some contribution from FSH, is the normal physiological trigger for the ovulatory sequence of events, and it appears from the available information that the effects of LH are mainly mediated via adenylate cyclase and increased cAMP levels. The cAMP in turn, via cAMP-dependent protein kinase, influences at least three distinct steps in the ovulatory process which seem to be of crucial importance, namely 1) the stimulation of steroidogenesis; 2) the stimulation of cyclooxygenase/lipooxygenase leading to increased prostaglandin/leukotriene synthesis; and 3) the stimulation of plasminogen activator which catalyzes the conversion of plasminogen to plasmin. A fourth crucial step in the ovulatory mechanism is the LH-induced increase in latent collagenase, but it remains to be determined if this step is mediated via cAMP. Concomitant with the increase in latent collagenase, there also appears to be an LH-dependent increase in collagenase inhibitors. The latent collagenase is then activated, and it appears that leukotrienes and prostaglandins, as well as plasmin, may be involved in this process. The active collagenase causes a digestion of the collagen in the follicle wall, and plasmin, as well as possibly other proteolytic enzymes such as proteoglycanases, may cause a further dissociation of the follicular wall. These processes of digestion of collagen and dissociation of the collagen fibers result in an opening in the follicular wall with the formation of the stigma and rupture. While the weakening of the follicular wall takes place throughout the entire wall, rupture remains for the most part a localized process at the apex of the follicle. This localization of the rupture may be explained on the basis of mechanical factors operating when the follicle wall thins and weakens. While it is clear that prostaglandins and leukotrienes can influence smooth muscle by causing contractions and that these compounds can cause vascular changes such as increased permeability, vasodilation, and vasoconstriction, it is not clear what the exact role of these latter processes are in ovulation. It appears that progesterone and not estrogen play an important role in the mechanism of LH-induced follicular rupture, but the locus of action of progesterone and its mechanism of action remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of mammalian ovulation. 255 97

The sequence of ovarian events during the process of ovulation discussed in this review is schematically represented in Figure 1. It is obvious that LH, perhaps with some contribution from FSH, is the normal physiological trigger for the ovulatory sequence of events and it appears from the available information that LH's effects are mainly mediated via adenylate cyclase and increased cAMP. The cAMP in turn, via cAMP-dependent protein kinase, influences at least three distinct steps in the ovulatory process which seem to be of crucial importance, namely 1) the stimulation of steroidogenesis; 2) the stimulation of cyclooxygenase/lipooxygenase leading to increased prostaglandin/leukotriene synthesis; and 3) the stimulation of plasminogen activator which catalyzes the conversion of plasminogen to plasmin. A fourth crucial step in the ovulatory mechanism is the LH-induced increase in latent collagenase, but it remains to be determined if this step is mediated via cAMP. Concomitant with the increase in latent collagenase, there also appears to be an LH-dependent increase in collagenase inhibitors. The latent collagenase is then activated and it appears that leukotrienes and prostaglandins as well as plasmin may be involved in this process. The active collagenase causes a digestion of the collagen in the follicle wall. Plasmin as well as possibly other proteolytic enzymes such as proteoglycanases (Too et al., 1984) may cause a further dissociation of the follicular wall. These processes of digestion of collagen and dissociation of the collagen fibers result in an opening in the follicular wall with the formation of the stigma and rupture. While the weakening of the follicular wall takes place throughout the entire wall, rupture remains for the most part a localized process at the apex of the follicle. This localization of the rupture may be explained on the basis of mechanical factors operating when the follicle wall thins and weakens (Rodbard, 1984). While it is clear that prostaglandins and leukotrienes can influence smooth muscle by causing contractions and that these compounds can cause vascular changes such as increased permeability, vasodilatation and vasoconstriction, it is not clear what the exact role of these latter processes are in ovulation. It appears that progesterone and not estrogen play an important role in the mechanism of LH induced follicular rupture, but the locus of action of progesterone and its mechanism of action remains to be determined.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of mammalian ovulation. 265 83

In the present study we have examined the effects of FSH, forskolin, and (Bu)2cAMP on messenger RNA (mRNA) levels for all known subunits of cAMP-dependent protein kinase in rat Sertoli cells, using newly developed complementary DNA (cDNA) probes. mRNAs for the three regulatory subunits [RI alpha, RII51, (RII beta), and RII54 (RII alpha)] and the catalytic subunit C alpha were shown to be present in cultured rat Sertoli cells, whereas mRNAs for the subunits designated RI beta and C beta were below the level of detection. A high-levelled, concentration-dependent increase in a 3.2 kilobase mRNA for RII51 was observed when cultured immature Sertoli cells were incubated with increasing concentrations of (Bu)2cAMP (10(-6) to 5 X 10(-3) M) for 16 h. Densitometric scanning indicated a maximal stimulation by (Bu)2cAMP of 30- to 40-fold. Incubation with forskolin (100 microM) and FSH (200 ng/ml) gave rise to a smaller but significant increase in mRNA for RII51. When cultured Sertoli cells were incubated in the presence of 10(-4) M (Bu)2cAMP for varying time periods, there was a biphasic regulation of mRNA for RII51. (Bu)2cAMP caused an initial increase in mRNA for RII51 with maximal levels obtained after 10-16 h, after which a time-dependent decrease was observed. For the other three subunits present in Sertoli cells (RI alpha, RII54, and C alpha) a smaller but significant stimulation by (Bu)2cAMP and forskolin (2-4 fold) was seen. The functional implications of these changes in mRNA levels for the different subunits of cAMP-dependent protein kinase have not yet been revealed. However, our data clearly demonstrate differential regulation of the various subunits of cAMP-dependent protein kinase in Sertoli cells. Furthermore, these results document the presence of distinct adaptational changes taking place at the level of cAMP-dependent protein kinase in response to long term elevation of cAMP.
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PMID:Differential regulation of messenger ribonucleic acids for specific subunits of cyclic adenosine 3',5'-monophosphate (cAMP)-dependent protein kinase by cAMP in rat Sertoli cells. 283 70

In the present work the molecular mechanisms of glucagon-induced desensitization of adenylate cyclase in cultured Sertoli cells have been studied in both whole cells and in a cell-free system. 1) Pretreatment of both whole Sertoli cells and membranes with glucagon induces a time- and dose-dependent desensitization of adenylate cyclase response that is primarily homologous and similar in the two systems. The component of heterologous desensitization, estimated by the reduced responsiveness to other hormones and NaF, accounted for only 12-20% loss of glucagon-responsive adenylate cyclase activity (P less than 0.01). 2) Glucagon-induced desensitization is ATP-dependent. Half maximal desensitization was achieved between 0.1 and 0.2 mM of ATP. 3) The typical time lag in the maximal activation of adenylate cyclase by GMPP(NH)P in the absence of hormone reappeared upon desensitization in spite of the presence of glucagon. The lag, however, was eliminated by FSH, showing that the homologous desensitization is due to a receptor-specific alteration. 4) The heterologous component of glucagon-induced desensitization is largely cAMP/protein kinase dependent. cAMP/protein kinase-induced desensitization was heterologous and caused approximately 30% loss of both hormonal and fluoride-stimulated enzyme activity. 5) Glucagon-induced desensitization is not due to altered activity of Ni since it proceeded equally well in membranes of cells pretreated with pertussis toxin (100 ng/ml) which eliminates Ni-mediated effects. It is concluded that glucagon induces both homologous and heterologous desensitization of the Sertoli cell adenylate cyclase. The locus of homologous desensitization appears to be at the level of the receptor and most probably involves a cAMP-independent phosphorylation reaction, whereas the heterologous desensitization appears to be cAMP-mediated and at least involves impaired functional activity of the Ns component.
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PMID:Mechanisms of glucagon-induced homologous and heterologous desensitization of adenylate cyclase in membranes and whole Sertoli cells of the rat. 284 Feb 61

In recent years a multiplicity in isoforms of cAMP-dependent protein kinases has been revealed. Gene products for four different regulatory subunits (RI alpha, RI beta, RII alpha, RII beta) and two different catalytic subunits (C alpha, C beta) have been identified. We hereby present the molecular cloning of rat cDNAs for RII beta, as well as full-length human cDNAs for RII beta and RI alpha. The amino acid sequences deduced from the cDNAs of the regulatory subunits, revealed dissimilarities which were primarily confined to the N-terminal part of the protein. Based on the vital role in testicular function played by gonadotropin-induced activation of cAMP-dependent protein kinases, mRNA levels for the various subunits of cAMP-dependent protein kinase have been studied in rat testis. A clear pattern of cellular localization of mRNAs for the various subunits of cAMP-dependent protein kinase has been demonstrated. Furthermore, stimulation of Sertoli cells by FSH and cAMP elicited a differential response in mRNA levels for various subunits. A dramatic increase (30-40 fold) in the mRNA for RII beta (3.2 kb) was seen with cAMP stimulation, whereas such treatment had minor effects on mRNAs for RI alpha, RII alpha and C alpha. A distinct pattern of expression for various subunits of cAMP-dependent protein kinase was observed during germ cell differentiation. RI alpha and RI beta were expressed at high levels at early stages of spermatogenesis, whereas unique mRNAs for RII alpha and RII beta appeared in post-meiotic germ cells. Altogether, the present results demonstrate specific expression of mRNAs for different subunits of cAMP-dependent protein kinase in different cell types, during hormonal stimulation and during cellular differentiation. This indicates that the individual subunits may confer specific functional properties to the cAMP-dependent protein kinase holoenzyme and to the cAMP signal pathway of the cell.
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PMID:Molecular cloning and cell-specific expression of newly discovered subunits of cAMP-dependent protein kinases. Implications for different cellular responses to cAMP. 284 17

In this study, we report the isolation and characterization of a full-length cDNA clone for the hormone-inducible regulatory subunit RII beta (formerly called RII51) of type II cAMP-dependent protein kinase from a human testis cDNA library. The cloned cDNA demonstrated tissue-specific expression of RII beta mRNA in human tissues, with the highest mRNA levels in testis and ovary. The isolated human cDNA clone was 3.3 kilobases (kb) in length and contained 166 base pairs (bp) of G/C-rich 5'-noncoding sequence, an open reading frame of 1254 bp and an A/T-rich 3'-nontranslated region containing 1836 bp followed by an 89 nucleotide long poly(A)-tail. The predicted protein contains 418 amino acids including the start methionine, and the estimated mol wt of human RII beta is 53,856. The nucleotide sequence within the open reading frame and the predicted amino acid sequence of human RII beta are highly conserved compared with partial rat RII beta sequences, displaying 91% and 97% similarity, respectively. Codon preference analysis of the cloned cDNA sequence indicated that the two cAMP-binding domains and the hinge region are highly conserved through evolution, whereas the dimerization domain displayed a codon preference pattern indicative of appearance at a later stage of evolution. The isolated human cDNA detected an FSH- and cAMP-inducible mRNA of 3.2 kb in rat Sertoli cells, thus confirming that the cloned cDNA represents the hormone-inducible regulatory subunit of cAMP-dependent protein kinase. This is the first report documenting the isolation of a full-length cDNA clone for the RII beta of cAMP-dependent protein kinase.
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PMID:Molecular cloning, complementary deoxyribonucleic acid structure and predicted full-length amino acid sequence of the hormone-inducible regulatory subunit of 3'-5'-cyclic adenosine monophosphate-dependent protein kinase from human testis. 285 Nov 2

To define the role of cAMP in the actions of ACTH, the dissociation of cAMP-dependent protein kinase and the subsequent intracellular location of its free catalytic units were monitored after exposure of Y-1 cells to ACTH, FSH, or cyclic nucleotide analog. To accomplish this, a fluorescinated cytochemical probe was used that complexes specifically with free catalytic units from cAMP-dependent protein kinase. Also, the effects of hormone or nucleotide on secretion of fluorogenic steroids and DNA synthesis were examined. Y-1 cells dissociated protein kinase in a dose-dependent fashion when exposed to ACTH or cAMP analog, but did not respond to FSH, which was one of the control agents used. After 30 min of treatment with 1.5 X 10(-10) M ACTH, free catalytic units were observed only in the cytoplasm of Y-1 cells, whereas a similar time of exposure to 3 X 10(-10) M ACTH led to the appearance of catalytic units in nucleolus as well as in cytoplasm. ACTH (6 X 10(-10) M) caused a rise in cytoplasmic and nucleolar protein kinase dissociation proportionally greater than that seen in cultures exposed to 3 X 10(-10) M ACTH. Upon treatment with 6 X 10(-10) M ACTH, the amount of free catalytic units in cytoplasm and nucleolus was detectably greater than that in controls within 1 min of stimulation and continued to rise with increasing time of exposure to hormone. The nuclear, mostly nucleolar, content of free catalytic unit appeared to peak after 15 min of stimulation, while cytoplasmic enzyme levels continued to rise up to 60 min. Exposure of Y-1 cells to nucleotide analog caused cAMP-dependent protein kinase dissociation with temporal kinetics and a subcellular distribution similar to that seen after ACTH stimulation. We conclude that actions of ACTH are mediated by cAMP-dependent protein kinases. Further, there appear to be two intracellular pools of protein kinase, one nucleolar, the other cytoplasmic, and these may be independently regulated, with the nucleolar enzyme requiring higher concentrations of ACTH for dissociation than those needed for cytoplasm protein kinase. These observations may be relevant to the fact that more ACTH is required to inhibit DNA synthesis than is necessary to enhance steroid production.
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PMID:Intracellular kinetics of free catalytic units dissociated from adenosine 3',5'-monophosphate-dependent protein kinase in adrenocortical tumor cells (Y-1). 298 Oct 71

The mechanisms by which FSH and cAMP induce receptors for LH (RLH) and increase progesterone (P) production in estradiol (E)-primed ovarian granulosa cells remain unclear, but may involve increases in the regulatory subunit of cAMP-dependent protein kinase II (RII) and the phosphorylation of specific cellular proteins. To examine the relationship of these events, primary cultures of granulosa cells (10(6) cells/ml) from E-treated (1.5 mg/day for 3 days) immature female rats were incubated with 10 nM E with or without FSH (25 ng/ml) for 0-120 h. The cytosolic content of RII was analyzed by four techniques: 1) immunoblotting using an antibody to bovine heart RII; 2) photoaffinity labeling with [32P]8-azido-cAMP; 3) phosphorylation with [gamma-32P]ATP with or without 2 microM cAMP or with the catalytic subunit of cAMP-dependent protein kinase; and 4) phosphorylation of intact cells with [32P] orthophosphate. All approaches revealed a time-dependent 5- to 6-fold increase in RII content in granulosa cells cultured for 48 h with E and FSH compared to that in cells treated with E alone. The content of RI, the regulatory subunit of protein kinase type I, remained low throughout the culture period regardless of hormone treatment. Granulosa cells were also cultured with E (10 nM) and 8-bromo-cAMP (8-Br-cAMP; 0.25-3 mM) or forskolin (0.5-100 microM), agents that increase intracellular cAMP, for 48 or 72 h. The cytosolic content and phosphorylation of RII were increased by culturing granulosa cells in E and 8-Br-cAMP (1 mM) or forskolin (50 microM) for 48 h. The increase in RII was associated with a FSH-mediated increase in the content and phosphorylation of other cAMP-dependent phosphoproteins. The increases in RII and cAMP-dependent phosphoproteins were associated with specific alterations in granulosa cell function: a FSH-mediated rise in 1) RLH [59.3 +/- 7.4 cpm/micrograms DNA (without FSH) to 1171.5 +/- 157 cpm/micrograms DNA (with FSH]) and 2) P accumulation in the medium [0.05 +/- 0.03 ng/ml (without FSH) to 25.3 +/- 4.6 ng/ml (with FSH]) at 48 h. A dose-dependent increase in the RLH and P accumulation in the medium was observed at 48 h of culture with E and 8-Br-cAMP or E and forskolin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of the content and phosphorylation of RII by adenosine 3',5'-monophosphate, follicle-stimulating hormone, and estradiol in cultured granulosa cells. 299 Aug 78


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