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)

Highly purified plasma membranes from Y-1 adrenal tumor cells were incubated with [gamma-32P]ATP with and without cAMP to determine whether endogenous protein substrates are phosphorylated by a cAMP-dependent protein kinase. Three membrane proteins (mol wt 270,000, 35,000, and 17,000) were phosphorylated without cAMP and, to a greater extent, with the nucleotide (0.05-20 microM). Phosphorylation was rapid (less than 60 sec), specific for cAMP, and occurred exclusively at serine residues. Two of the three proteins (35,000 and 17,000) were phosphorylated in whole cells under the influence of cAMP when the cells were incubated with [32P]orthophosphate. The cAMP-dependent protein kinase of these plasma membranes was not extracted by Triton X-100 (0.5% wt/vol) nor by KCl (0.4 M) but was almost completely extracted by the two agents together. By means of photoactivation of 8-azido-[32P]cAMP, it was found that both regulatory subunits RI and RII are present in the membranes. To the extent that the second messenger acts only by way of protein kinase enzymes, these changes in the three proteins are likely to be important in the responses of the plasma membranes of adrenal cells to ACTH.
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PMID:Phosphorylation of three proteins in the plasma membrane of Y-1 adrenal cells by a membrane-bound adenosine 3',5'-monophosphate-dependent protein kinase. 300 63

In intact goldfish xanthophores, the phosphorylation of a pigment organelle (carotenoid droplet) protein, p57, appears to play an important role in adrenocorticotropin (ACTH)- or cAMP-induced pigment organelle dispersion while the dephosphorylation of this protein upon withdrawal of ACTH or cAMP is implicated in pigment aggregation. In this paper, we report the cAMP-dependent phosphorylation of this protein in cell-free extracts of xanthophores as determined by the incorporation of 32P from [gamma-32P]ATP. As is the case in intact cells, p57 is the predominant protein phosphorylated in the presence of cAMP. The cAMP-dependent protein kinase which phosphorylates p57 is not bound to the isolated organelles but is found in the soluble portion of the cell extracts. Hence, the phosphorylation of p57 requires the carotenoid droplets bearing the substrate, soluble extract containing the kinase, cAMP (half-maximal activation at 0.5 microM), and Mg2+ (optimal at 5 mM or higher). The presence of protein phosphatase(s) in these extracts was shown indirectly by the stimulation of phosphorylation by fluoride. The phosphorylation of p57 does not appear to require a cell-specific kinase as soluble extracts of goldfish dermal nonpigment cells also phosphorylate p57 associated with isolated carotenoid droplets. Furthermore, using a constant amount of carotenoid droplets, a linear relationship was demonstrated between the rate of p57 phosphorylation and the amount of extract present in the assays. These results suggest that p57 is phosphorylated directly by a cAMP-dependent protein kinase and that the activity of this enzyme is important in regulating the intracellular movement of the pigment organelles of the xanthophore.
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PMID:Regulation of pigment organelle translocation. II. Participation of a cAMP-dependent protein kinase. 300 26

Y-1 adrenal cortical tumor cells in culture, which contain substantial amounts of tetrahydrobiopterin [6R-(L-erythro-1',2'-dihydroxypropyl)5,6,7,8-tetrahydropterin] (BH4) and GTP cyclohydrolase (GTP-CH), were used to study the regulation of BH4 biosynthesis by ACTH and cAMP. ACTH produced a dose-dependent increase in steroidogenesis, BH4 levels and GTP-CH activity. Maximal stimulation of BH4 biosynthesis occurred at the same concentration of ACTH that caused maximal stimulation of steroidogenesis. ACTH-(1-24) was more potent than ACTH-(1-39). The stimulation of BH4 biosynthesis by ACTH was dependent on cell density, being greater at lower cell densities, but was independent of time in culture. The lack of stimulation by ACTH at higher cell densities was due to an increase in the specific activity of GTP-CH in the control cells as density increased. This increase may be due in part to the increased release of steroids, since exogenous steroids added to low density cultures also resulted in an increase in the specific activity of the enzyme. Addition of steroids had no effect on ACTH-dependent stimulation of BH4 biosynthesis at low cell densities. (Bu)2cAMP, 8-bromo-cAMP, and forskolin all produced time- and dose-dependent increases in BH4 levels, GTP-CH activity, and steroidogenesis. Maximum increases in GTP-CH and BH4 occurred at concentrations similar to those required for maximal stimulation of steroidogenesis. In the Kin-8 mutant of Y-1 cells, which has a type 1 cAMP-dependent protein kinase with an altered regulatory subunit, ACTH was unable to increase BH4 levels or GTP-CH activity at a concentration that produced maximal stimulation of BH4 and steroid biosynthesis in the parent Y-1 line. These studies indicate that Y-1 cells in culture are useful for studying the regulation of BH4 biosynthesis in the adrenal cortex.
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PMID:Regulation of tetrahydrobiopterin biosynthesis in cultured adrenal cortical tumor cells by adrenocorticotropin and adenosine 3',5'-cyclic monophosphate. 300 41

Y-1 mouse adrenal cortical tumour cells increase their production of steroids and cAMP while decreasing cell population growth in response to treatment with ACTH. With a fluorescent conjugate of the heat-stable protein kinase inhibitor, the time- and dose-dependent dissociation of cAMP-dependent protein kinase can be demonstrated following ACTH stimulation of Y-1 adrenal tumour cells, and the kinetics of its free catalytic subunits can be followed. After 60 min ACTH (6 X 10(-10) M) stimulation, a 4-fold rise in catalytic subunits was detected in the nucleus while a 2-fold increase was noted in the cytoplasm. When Y-1 cells had been previously treated with ACTH, they no longer secreted steroids to the same level in response to a subsequent exposure to ACTH. In addition to the altered steroidogenic response the cells become resistant to the effect of subsequent ACTH treatment on cell division and cAMP production as measured by protein kinase dissociation. Y-1 adrenal cells, that had been pretreated with ACTH, had an altered activation of protein kinase. Although there was an increase in cytoplasmic dissociation following subsequent ACTH stimulation of the pretreated cell, this increase was negligible when compared to that in the non-pretreated cultures. The nucleus of the ACTH-pretreated cell failed to significantly dissociate protein kinase following subsequent ACTH treatment. The data suggest that the phenomenon of desensitisation may be due to a decrease in dissociation of cAMP-dependent protein kinase, especially in the nucleus.
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PMID:Cyclic AMP-dependent protein kinase-mediated desensitisation of adrenal tumour cells. 301 86

The conversion of cholesterol to pregnenolone by adrenocortical mitochondria is the rate-limiting step in steroidogenesis. This process is stimulated dramatically by the action of ACTH through the sequential reactions, in which adenyl cyclase, cAMP-dependent protein kinase, cholesterol esterase and ribosomal protein synthesis are all involved. The de novo synthesized protein, the so-called labile protein with a half-life of approx 10 min, is believed to stimulate the cholesterol side chain cleavage reaction by an unknown mechanism. Available evidence indicates that the electron on transfer reaction from NADPH to P-450scc is mediated rapidly by adrenodoxin reductase and p-450 scc. In addition, these redox components are inactivated slowly with a half-life of 3.5 days after hypophysectomy. It is known that the corticoid output from adrenocortical cells starts within 5 min and reaches the maximum after 10-15 min of ACTH administration to animals. One can assume that under normal physiological conditions, both O2 and NADPH are not limiting. Additionally, mitochondrial inner membranes are poor in cholesterol. In this context, the availability of substrate cholesterol to P450scc is the most likely candidate for the regulatory mechanism.
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PMID:Transduction of ACTH signal from plasma membrane to mitochondria in adrenocortical steroidogenesis. Effects of peptide, phospholipid, and calcium. 302 55

DNA-mediated gene transfer was used to evaluate the cause and effect relationship between mutations in cAMP-dependent protein kinase activity and cellular resistance of adrenocortical tumor cells to ACTH and cAMP. Protein kinase defective, Kin 8 adrenocortical tumor cells were transformed with genomic DNA from an ACTH- and cAMP-responsive adrenocortical cell line and screened for the recovery of morphological responses to the cAMP analog 8-bromo-cAMP (8BrcAMP). 8BrcAMP-responsive transformants were recovered with a frequency of approximately 0.5 per 10(3) transformation-competent cells. These transformants recovered the ability to round up in the presence of ACTH and were able to respond to both ACTH and 8BrcAMP with increased steroidogenesis. They also recovered cAMP-dependent protein kinase activity. The transformants, however, were unstable and concomitantly lost cAMP-dependent protein kinase activity and steroidogenic and morphological responses to ACTH and 8BrcAMP. These observations suggest that a single gene, probably the gene encoding the regulatory subunit of cAMP-dependent protein kinase, is responsible for the resistance of the Kin 8 mutant to ACTH and cAMP.
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PMID:The roles of cAMP and cAMP-dependent protein kinase in the regulation of adrenocortical functions: analysis using DNA-mediated gene transfer. 303 Mar 65

The potent mitogen and tumor promoter, phorbol 12-myristate 13-acetate (PMA), has a primary action via activation of calcium-dependent protein kinase C. The treatment of monolayer cultures of human fetal adrenal neocortex (HFA) cells with PMA (50-250 nM) stimulated basal dehydroepiandrosterone sulfate (DS) secretion 2-3 fold. ACTH-treated HFA cells secreted amounts of DS and cortisol (F) 10-50 fold greater than basal secretions. PMA (250 nM) addition with ACTH to HFA cells decreased DS and F secretions at least 75% on days 2 and 3 of treatment. Treatment of HFA cells with 4 alpha-phorbol, which does not activate calcium-dependent protein kinase C, did not inhibit steroidogenesis. The attenuated rates of steroidogenesis after PMA treatment correlated with the decreased amounts of steroid 11 beta, 17 alpha- and 21-hydroxylase cholesterol side-chain cleavage steroid dehydrogenase and sulfotransferase activities. The decrease of steroid 17 alpha-hydroxylase activity correlated with the decreased amount of cytochrome P-450(17) alpha as determined after protein immunoblotting of NaDodSO4 cell lysates. After PMA treatment the ACTH-promoted increases of hydroxysteroid sulfotransferase and dehydrogenase activities of HFA cells were suppressed. PMA (50 nM) inhibited cAMP accumulation in ACTH-treated HFA cells, while 4 alpha-phorbol had no effect. Importantly, dibutyryl cAMP (0.2 mM) treatment of HFA cells did not reverse phorbol ester-promoted attenuation of steroidogenesis. We conclude that, in the presence of ACTH, phorbol ester chronically inhibits both cAMP synthesis and cAMP-dependent protein kinase action with resultant decreased steroidogenic enzyme synthesis and steroid production. This may be a consequence of activation, migration and a slow degradation of protein kinase C activity. These multifaceted actions of phorbol ester and associated protein kinase C activation may have critical effects on the ontogeny of fetal adrenal function.
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PMID:The action of phorbol ester on steroidogenesis in cultured human fetal adrenal cells. 303 Jul 21

To increase our knowledge of the molecular details of peptide hormone action, a specific immunogold staining procedure for the ultrastructural localization of cAMP-dependent protein kinase regulatory (RI) and catalytic (C) subunits was used in Y-1 adrenal cortical tumor cells. The Y-1 adrenal cell responds to ACTH (40 mU/ml) with a decrease in cell division and an increase in steroid production. Corresponding to the decrease in rate of cell division and the increase in steroid production, there was a 2-fold increase in both nuclear and cytoplasmic localization of the C subunit after 60-min ACTH (40 mU/ml) treatment of the culture. The amount of immunogold staining in the adrenal tumor cells after localization with antiserum of the RI subunit decreased after 60-min ACTH (40 mU/ml) stimulation. A 2-fold decrease in labeling in the cytoplasm and nucleus was observed for the RI subunit. The loss of RI subunit from the soluble fraction of the cytoplasm of the cell or an alteration of this RI subunit is suggested by this investigation. Since there was no increase in the RI subunit in the nuclear compartment, a loss of RI subunit from the cytoplasm into the nucleus seems unlikely. The observed immunogold changes in the C subunit after ACTH treatment correspond to the reported changes observed with light microscopic techniques with a fluorescein-coupled inhibitor as a probe for the localization of free C. The immunogold technique allows for the ultra-structural identification and quantification of nuclear as well as the cytoplasmic sites of cAMP-dependent protein kinase after hormonal stimulation. These results support the proposed role of protein kinase as a mediator of the ACTH response.
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PMID:Ultrastructural localization of cyclic adenosine 3',5'-monophosphate-dependent protein kinase after adrenocorticotropin stimulation in adrenal cortical tumor cells. 303 72

Steroidogenesis is not stimulated by ACTH in the inner zone of the guinea pig adrenal cortex; adenylate cyclase is normally stimulated. To further explore the lack of a steroidogenic response to ACTH in the inner zone, cAMP-dependent protein kinase activity and protein phosphorylation were examined in the outer and inner adrenocortical zones. To summarize: total cAMP-dependent protein kinase activity was 40% higher in the outer zone than in the inner zone; of the total cAMP-dependent protein kinase activity, cytosol contained 80% for the outer and 70% for the inner zone. In both zones only the type II isozyme was present. Qualitative and quantitative differences in protein phosphorylation were noted for the two zones.
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PMID:Cyclic AMP-dependent protein kinase activity and protein phosphorylation in zones of the adrenal cortex. 374 39

Preparations of cytoskeleton from Y-1 cells were found to phosphorylate various cytoskeletal proteins when incubated with [gamma-32P]ATP. When cAMP was added to the cytoskeleton, a rapid increase in phosphorylation of cytoskeletal protein was observed, and changes were seen in the phosphorylation of individual proteins; four additional proteins were phosphorylated (mol wt, 165,000, 92,000, 45,000, and 24,000) and three proteins were more intensely phosphorylated than without cAMP (mol wt, 125,000, 51,000, and 38,000). In addition, one protein (mol wt, 96,000) that was intensely phosphorylated without cAMP was not phosphorylated with the cyclic nucleotide, and a second (mol wt, 48,000) was less phosphorylated. The increased level of total phosphorylation returned to the unstimulated level within 10 min. The increased phosphorylation of proteins produced by cAMP was inhibited by protein kinase inhibitor. cAMP-dependent protein kinase activity was closely associated with the cytoskeleton, since it was not removed by Triton X-100 (1%, wt/vol), although some activity could be extracted with buffer containing high concentrations of salt. When the cytoskeleton of Y-1 cells was subjected to treatments that disrupt the cytoskeleton before the cells were extracted (cytochalasin B, colchicine, and sonication), no change was seen in cAMP-dependent protein kinase activity. However, cytochalasin B increased phosphorylation of two proteins that were not phosphorylated by cAMP-dependent kinase (mol wt, 63,000 and 43,000). Sonication of the cytoskeleton before addition of [gamma-32P]ATP caused a number of changes in cAMP-independent phosphorylation, but did not affect cAMP-dependent phosphorylation. cAMP-dependent phosphorylation required Mg2+ and was inhibited by Ca2+. It is concluded that the cytoskeleton of Y-1 cells contains bound cAMP-dependent protein kinase that phosphorylates certain cytoskeleton proteins. The cytoskeleton also contains one or more cAMP-independent kinase systems. It is suggested that the cAMP-dependent protein kinase described here may be important in the cytoskeletal responses to ACTH.
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PMID:Adenosine 3',5'-monophosphate-dependent protein kinase associated with the cytoskeleton of adrenal tumor cells. 406 35


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