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:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Transferrin-specific cDNA clones were isolated from a rat liver cDNA library prepared from transferrin-enriched mRNA. Hybrid selection and sequence analysis confirmed that the selected clone contained the carboxy-terminal coding region of the transferrin mRNA. Northern blot analysis was used to demonstrate the presence of transferrin mRNA in liver and Sertoli cells. Transferrin mRNA levels were measured in total RNA isolated from cultured rat Sertoli cells after treatment with FSH, insulin, retinol, and testosterone. The results showed a 2- to 4-fold increase in the level of transferrin mRNA, which peaked on the fourth day of culture after initiation of treatment, with FSH, insulin, retinol, and testosterone. This induction is gene specific, since no change in the mRNA levels for either the catalytic or regulatory subunits of cAMP-dependent protein kinase was observed. The effects of hormones, vitamin A (retinol), and Bu2 cAMP on transferrin mRNA and transferrin secretion (measured by RIA) in cultured Sertoli cells were compared. In general, a direct relationship between the amount of transferrin mRNA present in the cells and the amount of transferrin secreted into the culture medium was observed. These results demonstrate the important role that vitamin A, testosterone, and peptide hormones play in modulating transferrin gene expression in Sertoli cells.
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PMID:Transferrin messenger ribonucleic acid: molecular cloning and hormonal regulation in rat Sertoli cells. 302 31

The heat-stable protein inhibitor of cAMP-dependent protein kinase is specifically regulated by hormones in cultures of rat Sertoli cells maintained under completely defined conditions. Hormones that are known to elevate Sertoli cell cAMP concentrations, namely FSH and isoproterenol, produce a 4- to 5-fold increase in the specific activity of protein kinase inhibitor, whereas testosterone and LH have no effect. The stimulatory effects of FSH or isoproterenol on protein kinase inhibitor are completely mimicked by dibutyryl cAMP. The ability of FSH to stimulate protein kinase inhibitor is dependent upon the age of the animals used as a source for the Sertoli cells. FSH stimulates protein kinase inhibitor activity in cells from 9- and 16-day-old animals, but not in cells from 32-day-old animals. On the other hand, isoproterenol or dibutyryl cAMP will stimulate protein kinase inhibitor in cells from both young and old animals. FSH can stimulate protein kinase inhibitor activity in older cells only in the added presence of the phosphodiesterase inhibitor, 1-methyl-3-isobutyl xanthine. Using specific antibodies to protein kinase inhibitor, we have shown that this protein is regulated by hormones via preferential stimulation of de novo synthesis of the inhibitor. (Endocrinology 108: 427, 1981)
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PMID:Regulation of protein kinase inhibitor by follicle-stimulating hormone in Sertoli cells in vitro. 625 52

The Sertoli cell is the primary target for FSH action in the mammalian testis. These cells contain the majority of testicular plasma membrane receptors for this hormone. Receptor occupancy is directly correlated with a stimulation of adenylyl cyclase and a decrease in the activity of a cytoplasmic Ca++-sensitive cAMP phosphodiesterase. Regulation of these two enzymes allows increased intracellular accumulation of cAMP, activation of cAMP-dependent protein kinase and phosphorylation of a variety of protein substrates. All of these events occur within the first 30 min following exposure of isolated Sertoli cells to FSH. RNA and protein synthesis are also enhanced by FSH. Previous studies have suggested that this gonadotropin may augment the overall cellular synthesis of proteins. Our results reveal that protein kinase inhibitor (PKI) is selectively elevated by FSH both in vivo and in vitro. PKI thus becomes the initial intracellular protein whose synthesis is under FSH control. In addition to effects on protein synthesis, FSH also positively modulates the secretion of several specific proteins. One of the proteins in this latter category is androgen binding protein (ABP). Again, regulation can be observed both in vivo and in vitro. Elevated synthesis of PKI occurs prior to demonstrable secretion of ABP. Both of these events occur subsequent to the effects of FSH on cAMP metabolism. Indeed cAMP (or any of several nonhydrolyzable derivatives) can substitute for FSH in vitro. The temporal sequence of events subsequent to hormone binding and cAMP production are identical, but occur more rapidly. Together these data support the hypothesis that most of the biochemical steps leading to the synthesis and secretion of proteins by FSH are regulated by elevated levels of cAMP.
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PMID:Factors affecting Sertoli cell function in the testis. 626 10

The responsiveness of granulosa cells to the gonadotropins and cAMP increases as ovarian follicles mature. To determine if this change in response might be related to either the content or cAMP-dependent phosphorylation of specific proteins, we labeled proteins in 30,000 X g supernatant fractions (cytosol) with [gamma-32P] ATP in the presence or absence of cAMP. Using two-dimensional gel electrophoresis, we observed that granulosa cells of preantral follicles exhibited low amounts of cAMP-dependent phosphorylation of two proteins with apparent molecular weights of 54,000-56,000 and 43,000. Using [32P]8-N3cAMP and photoaffinity labeling procedures, the Mr = 54,000-56,000 protein was identified as RII, the regulatory subunit of type II protein kinase. Polychromatic silver staining, as well as the photoaffinity labeling, revealed that RII exists in three forms, each of which was also labeled by [gamma-32P] ATP. Based on the relative isoelectric points and specific silver staining of highly purified actin and phosphorylated actin, the Mr = 43,000 protein has been provisionally identified as actin. Five proteins (Mr = 37,500, 27,500, 22,500, 19,000, and 15,000), in addition to RII and actin, were phosphorylated in cytosol of granulosa cells from preovulatory follicles. By adding increasing concentrations of exogenous catalytic subunit to the cytosols, we demonstrated that the content, as well as the phosphorylation of these proteins, was increased selectively in granulosa cells of antral follicles. By using hypophysectomized rats, we demonstrated that these five proteins are induced by follitropin (FSH). Because they were not present in cytosols of thecal cells or corpora lutea, they appear to be specific markers for granulosa cells. The content and phosphorylation of RII was also dramatically increased in cytosols of granulosa cells from antral follicles, whereas that of actin remained unchanged. These observations indicate that granulosa cell differentiation involves regulation by FSH of specific proteins which are substrates for cAMP-dependent protein kinase. Thus, FSH and cAMP appear to regulate the intracellular content and phosphorylation of a cAMP response system in granulosa cells. The extent to which RII and the five specific phosphoproteins themselves regulate granulosa cell responsiveness remains to be determined.
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PMID:Changes in content and cAMP-dependent phosphorylation of specific proteins in granulosa cells of preantral and preovulatory ovarian follicles and in corpora lutea. 630 Jan 22

The mechanisms by which estradiol enhances the actions of FSH (and cAMP), including the induction of LH receptors in rat ovarian granulosa cells, remain unclear. These studies were conducted to determine the extent to which changes in the activity, content, or intracellular distribution of the catalytic subunit of cAMP-dependent protein kinase might be altered in granulosa cells as a consequence of estradiol, FSH, and hCG administration in vivo. Dose-dependent stimulation of protein kinase activity (measured by histone phosphorylation in the presence of [gamma 32P]ATP and cAMP) demonstrated that the EC50 for cAMP was consistently 20 X 10(-8) M in cytosols prepared from granulosa cells of hypophysectomized rats before and after treatment with estradiol alone or estradiol and FSH. However, estradiol alone caused a 1.5 to 2.0-fold increase in the total amount of enzyme activity. When the cytosol content of the catalytic subunit (C) was quantitated directly, using immunoblotting procedures, the amount of C was 40 pmol/mg protein in all tissues, regardless of hormone treatments in vivo. When the content of RII, the regulatory subunit of type II cAMP-dependent protein kinase, was measured by similar immunoblotting procedures, a 10-fold increase was observed in granulosa cells exposed to both estradiol and FSH compared to that in cells exposed to estradiol alone. Greater than 80% of the intracellular content of both C and RII was present in the cytosol fraction (30,000 X g supernatant) rather than in the particulate nuclear fraction (30,000 X g pellet) of granulosa cells. This distribution of subunits was not altered by rapidly elevating intracellular concentrations of cAMP in vivo with 10 IU hCG, iv. We conclude that the catalytic subunit of protein kinase is a constitutive component of granulosa cells and that the sensitivity of the enzyme for cAMP is not affected by hormones or by a 10-fold increase in RII. Thus, the ability of estradiol to enhance FSH and cAMP action in granulosa cells appears to come primarily from the induction of specific substrates for the enzyme and a small increase in the catalytic activity but not from a change in the content of the catalytic subunit.
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PMID:Adenosine 3',5'-monophosphate-dependent protein kinase and granulosa cell responsiveness to gonadotropins. 632 38

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


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