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)

1. The patch-clamp technique was used in conjunction with the fluorescent Ca2+ indicator indo-1 to measure simultaneously cytosolic Ca2+ concentration ([Ca2+]i) and membrane potential in single rat corticotrophs identified with the reverse haemolytic plaque assay. 2. Application of the adrenocorticotropin (ACTH) secretagogue, corticotropin-releasing hormone (CRH), triggered a sustained [Ca2+]i elevation and membrane depolarization. 3. The CRH action was mediated via the cAMP-dependent protein kinase cascade. Both the CRH-induced depolarization and [Ca2+]i elevation could be mimicked by extracellular application of the adenylate cyclase activator forskolin or the membrane-permeable cAMP analogue, 8-(4-chlorophenylthio)-adenosine-3',5'-cyclic monophosphate (8-CPT-cAMP). Intracellular adenosine cyclic 3',5'-(Rp)-phosphothioate (Rp-cAMPS), a protein kinase A inhibitor, abolished the CRH effects. 4. Voltage-clamp studies suggest that the CRH-triggered depolarization was due to the reduction of background K+ conductances. The CRH-sensitive current was Ca2+ independent and was insensitive to the K+ channel blockers tetraethylammonium (TEA) or 4-aminopyridine (4-AP), but could be partially inhibited by Ba2+. 5. The CRH-triggered steady-state depolarization stimulated extracellular Ca2+ entry via voltage-gated Ca2+ channels and raised [Ca2+]i. CRH failed to stimulate [Ca2+]i rise in cells that were voltage clamped at their resting potential. Removal of extracellular Ca2+ or inhibition of Ca2+ channels by Ni2+ abolished the [Ca2+]i rise. 6. Voltage-clamp studies of voltage-gated Ca2+ channels using Ba2+ as charge carrier show that approximately 90% of the channels were available for activation at the resting potential. CRH did not enhance the voltage-gated Ca2+ channels.
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PMID:Mechanism underlying corticotropin-releasing hormone (CRH) triggered cytosolic Ca2+ rise in identified rat corticotrophs. 936 11

von Willebrand factor (vWF) is stored and released from endothelial secretory granules called Weibel-Palade (WP) bodies. Acute release can be induced by thrombin, histamine, and other mediators of thrombosis or inflammation. Their effect is thought to be mediated by an increase in intracellular free calcium ([Ca2+]i). Purine nucleotides such as adenosine triphosphate (ATP) and adenosine diphosphate (ADP) are released from platelet dense granules and from ischemic tissues and are important regulators of platelet function and vascular tone. In the present study, we investigated whether they could also induce exocytosis from cultured endothelial cells. ATP (1 to 100 micromol/L) induced a dose-related increase in vWF release, with a 2.3-fold maximal increase after 30 minutes. Similar responses were observed with ADP. ATP induced calcium mobilization from intracellular stores, an effect mimicked by 2-methylthio-ATP, a selective agonist for P2y receptors. However, 2-methylthio-ATP-induced vWF release was only 43% of the ATP response. ATP-induced vWF release was also associated with a twofold increase in cellular cyclic adenosine monophosphate (cAMP) content, and was potentiated by 3-isobutyl-1-methylxanthine ([IBMX] added to increase cAMP levels by blocking cellular phosphodiesterases) and 8-bromo-cAMP and inhibited by more than 50% by Rp-8-CPT-cAMPS, a competitive protein kinase A inhibitor. Adenosine but not 2-methylthio-ATP mimicked the ATP-induced increase in cAMP. ATP-induced vWF release was partly inhibited by adenosine deaminase, which degrades adenosine generated from ATP in the incubation medium. Adenosine (1 to 100 micromol/L) failed to induce vWF release, but potentiated the secretory response to 2-methylthio-ATP and thrombin without modifying the calcium response to these agents. Our results suggest that ATP/ADP can induce vWF release from endothelial cells via dual activation of P2y and adenosine A2 receptors. ATP/ADP-induced exocytosis could be involved in the regulation of thrombus formation and ischemia-reperfusion injuries. Further, we provide evidence that a receptor-mediated increase in cellular cAMP can potentiate the secretory response to calcium-mobilizing agents.
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PMID:Purine nucleotides induce regulated secretion of von Willebrand factor: involvement of cytosolic Ca2+ and cyclic adenosine monophosphate-dependent signaling in endothelial exocytosis. 941 75

In normoxic conditions, myocardial glucose utilization is inhibited when alternative oxidizable substrates are available. In this work we show that this inhibition is relieved in the presence of cAMP, and we studied the mechanism of this effect. Working rat hearts were perfused with 5.5 mM glucose alone (controls) or together with 5 mM lactate, 5 mM beta-hydroxybutyrate, or 1 mM palmitate. The effects of 0.1 mM chlorophenylthio-cAMP (CPT-cAMP), a cAMP analogue, were studied in each group. Glucose uptake, flux through 6-phosphofructo-1-kinase, and pyruvate dehydrogenase activity were inhibited in hearts perfused with alternative substrates, and addition of CPT-cAMP completely relieved the inhibition. The mechanism by which CPT-cAMP induced a preferential utilization of glucose was related to an increased glucose uptake and glycolysis, and to an activation of phosphorylase, pyruvate dehydrogenase, and 6-phosphofructo-2-kinase, the enzyme responsible for the synthesis of fructose 2,6-bisphosphate, the well-known stimulator of 6-phosphofructo-1-kinase. In vitro phosphorylation of 6-phosphofructo-2-kinase by cAMP-dependent protein kinase increased the Vmax of the enzyme and decreased its sensitivity to the inhibitor citrate. Therefore, in hearts perfused with various oxidizable substrates, cAMP induces a preferential utilization of glucose by a concerted stimulation of glucose transport, glycolysis, glycogen breakdown, and glucose oxidation.
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PMID:Cyclic AMP suppresses the inhibition of glycolysis by alternative oxidizable substrates in the heart. 943 11

Elevation of cAMP concurrently enhances cholesterol efflux and binding of HDL3 in human skin fibroblasts. These effects were observed regardless of the route by which cAMP levels were increased. Cholesterol efflux and HDL3 binding were stimulated by the cAMP analogue CPT-cAMP, the adenylate cyclase activator forskolin, and by iloprost and prostaglandin E1 (PGE1) (which elevate cAMP via receptor-mediated processes). Dideoxyforskolin and PGF2alpha, which do not elevate cAMP, altered neither cholesterol efflux nor binding of HDL3. Inhibition of protein kinase A with H89 abolished the stimulatory effects of CPT-cAMP and iloprost, suggesting protein kinase A involvement in enhancing cholesterol efflux and HDL3 binding. Enhancement of HDL3 binding by iloprost was due to increased maximal capacity of the cells to bind HDL3, i.e., a greater number of HDL3 binding sites. A positive correlation was demonstrated between changes in HDL3 binding and changes in [3H]cholesterol efflux. The data are compatible with a model in which cholesterol efflux is partially dependent upon HDL binding to the cells. A short exposure to iloprost was sufficient to stimulate cAMP synthesis, triggering a chain of events leading to increased HDL3 binding and [3H]cholesterol efflux 20-24 h later. We conclude that both cholesterol efflux and the maximal capacity for HDL3 binding are enhanced by elevation of cellular cAMP. Cyclic AMP-elevating prostanoids could initiate these responses in vivo.
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PMID:Elevation of cyclic AMP by iloprost and prostaglandin E1 increases cholesterol efflux and the binding capacity for high-density lipoproteins in human fibroblasts. 955 75

The effects of cAMP on the oxytocin-stimulated increase in phosphatidylinositide turnover and the possible pathways involved were investigated in a human myometrial cell line (PHM1-41) and in COS-M6 cells overexpressing the oxytocin receptor. Preincubation with chlorophenylthio-cAMP (CPT-cAMP), forskolin, or relaxin inhibited oxytocin-stimulated phosphatidylinositide turnover in PHM1-41 cells, and the inhibition was reversed by H-89, a relatively specific protein kinase A inhibitor. Both CPT-cAMP and transiently expressed protein kinase A catalytic subunit inhibited stimulation by oxytocin and carbachol of [3H]inositol 1,3,4-trisphosphate formation in COS-M6 cells expressing oxytocin or muscarinic M1 receptors, respectively. CPT-cAMP also inhibited phosphatidylinositide turnover stimulation by endothelin-1 in PHM1-41 cells, further demonstrating the generality of the cAMP-inhibitory mechanism. Since G betagamma activation of phospholipase Cbeta2 (PLCbeta2) is a suggested target of protein kinase A, the possibility that the oxytocin receptor couples to PLCbeta2 via G alpha(i)G betagamma activation was explored. Western blot analysis of PHM1-41 cells and COS-M6 cells detected PLCbeta1 and PLCbeta3, but not PLCbeta2. In PHM1-41 cells, pertussis toxin reduced the oxytocin-stimulated increase in [3H]inositol 1,3,4-trisphosphate by 53%, and this was reversed completely by H-89. Thus, the inhibitory effect of pertussis toxin may result from an indirect effect of cAMP elevation. These data suggest that receptor/G alpha(q)-coupled stimulation of PLCbeta1 or PLCbeta3 can be inhibited by cAMP through a phosphorylation mechanism involving protein kinase A that does not involve PLCbeta2. In smooth muscle, this mechanism could constitute potentially important cross-talk between pathways regulating contraction and relaxation.
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PMID:Evidence for inhibition by protein kinase A of receptor/G alpha(q)/phospholipase C (PLC) coupling by a mechanism not involving PLCbeta2. 956 32

Previously we reported that phorbol ester, a protein kinase C (PKC) activator, exhibits a unique pattern of potentiation of nitric oxide (NO)-related apoptosis in HL-60 human promyelocytic leukemia cells. Here we show that elevation of intracellular cAMP could protect HL-60 cells from NO- or NO plus PMA-induced DNA damage. Exposure of cells to sodium nitroprusside (SNP; 0.5 to 4 mM), a NO-generating agent, induced apoptotic cell death as monitored by morphological means, gel electrophoresis, and in situ TdT-apoptosis assay. However, concomitant incubation of the cells with DB-cAMP markedly inhibited SNP-induced apoptotic cell death in a dose-dependent manner. Similar results were obtained with other commonly used cAMP analogs such as CPT-cAMP and 8-C1-cAMP and the intracellular cAMP-elevating agent such as forskolin. In contrast, pretreatment of HL-60 cells with H89 or KT5720, which are known to inhibit cAMP-dependent protein kinase (PKA), abolished the protective effect of cAMP analogs and forskolin on SNP-induced apoptosis. Synergism between SNP and phorbol ester to induce apoptosis was also inhibited by prior treatment of HL-60 cells with DB-cAMP or forskolin. The effect of DB-cAMP in maintaining cell viability was not associated with the onset of G0/G1 cell cycle arrest. In addition, neither dimethyl sulfoxide nor retinoic acid (which produce granulocyte differentiation) could produce cAMP effect. Under the same conditions, DB-cAMP also inhibited NO- or NO plus phorbol ester-induced apoptosis in another transformed cell line, U-937 cells. Taken together, these findings suggest that exposure of HL-60 cells to cAMP analogs renders them more resistant to NO-induced DNA damage and further suggest the existence of specific down-modulatory mechanisms related to NO-induced apoptotic DNA fragmentation.
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PMID:Cyclic adenosine monophosphate inhibits nitric oxide-induced apoptosis in human leukemic HL-60 cells. 957 15

Adenylyl cyclase (AC) modulation of vesicular cycling was visualized at cultured cerebellar granule cell synapses using the sequential uptake of antibodies directed against the intraluminal domain of synaptotagmin I. Vesicle recycling due to spontaneous transmitter release in the absence of action potentials was increased by the AC/protein kinase A (PKA) activators forskolin and CPT-cAMP. These effects were blocked by the PKA inhibitor Rp-cAMPs. Cyclic AMP elevation also induced new cycling at previously silent sites. Activation of L-AP4-sensitive mGluR reduced the cAMP/PKA enhancement at preexisting synapses downstream of both AC and calcium channels. Modulation of the turnover and the number of vesicular release sites provide one mechanism that may underlie cAMP-dependent cerebellar long-term potentiation.
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PMID:Visualization of cyclic AMP-regulated presynaptic activity at cerebellar granule cells. 958 68

While a differential sensitivity to cyclic AMP (cAMP)-mediated signaling between Th1 and Th2 cells has been hypothesized, differential activity of downstream signaling through cAMP-dependent protein kinase (cAK) isoforms remains unexplored. We herein report the effects of type 1- and type 2-specific cAK agonists and antagonists on proliferative responses and cytokine generation from ragweed-driven peripheral blood mononuclear cells (PBMCs) and Amb a 1-specific Th1 and Th2 clones. Rp-8-Cl- and Rp-8-CPT-cAMP were utilized as single agent antagonists of cAKI and cAKII, respectively; 8-AHA-cAMP, with and without 8-PIP-cAMP, and 8-CPT-cAMP, with and without 6-Bnz-cAMP, were used as synergistic agonist pairs specific for the cAKI and cAKII, respectively. Activation of either cAKI or cAKII individually was ineffective in down-regulating proliferative responses of PBMCs or T cell clones; concentration-response curves for the Th1 and Th2 clones were identical. Moreover, inhibition of either cAKI or cAKII individually was ineffective in overcoming the down-regulatory effects of phosphodiesterase inhibition. Activation of either cAKI or cAKII individually was ineffective in down-regulating proinflammatory cytokine generation from T cell clones (interleukin-4 from Th2; interferon-gamma from Th1). However, concurrent activation of both cAKI and cAKII produced down-regulatory effects equivalent to those of the phosphodiesterase inhibitor on both proliferation and cytokine generation. These data suggest a critical role for concurrent activation of cAKI and cAKII in the functional efficacy of antigen-driven downstream signaling due to elevations of intracellular cAMP and argue against differential regulation of Th1 and Th2 responses by cAK subtypes.
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PMID:Co-regulation of antigen-specific T lymphocyte responses by type I and type II cyclic AMP-dependent protein kinases (cAK). 977 49

Although the skeletal muscle sodium channel is a good substrate for cAMP-dependent protein kinase (PKA), no functional consequence was observed for this channel expressed in heterologous systems. Therefore, we investigated the effect of 8-(4-chlorophenylthio)adenosine 3',5'-cyclic monophosphate (CPT-cAMP), a membrane-permeable cAMP analog, on the native sodium channels of freshly dissociated rat skeletal muscle fibers by means of the cell-attached patch-clamp technique. Externally applied CPT-cAMP (0.5 mM) reduced peak ensemble average currents by approximately 75% with no change in kinetics. Single-channel conductance and normalized activation curves were unchanged by CPT-cAMP. In contrast, steady-state inactivation curves showed a reduction of the maximal available current and a negative shift of the half-inactivation potential. Similar effects were observed with dibutyryl adenosine 3',5'-cyclic monophosphate but not with cAMP, which does not easily permeate the cell membrane. Incubation of fibers for 1 h with 10 microM H-89, a PKA inhibitor, did not prevent the effect of CPT-cAMP. Finally, the beta-adrenoreceptor agonist isoproterenol mimicked CPT-cAMP when applied at 0.5 mM but had no effect at 0.1 mM. These results indicate that cAMP inhibits native skeletal muscle sodium channels by acting within the fiber, independently of PKA activation.
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PMID:Blockade by cAMP of native sodium channels of adult rat skeletal muscle fibers. 984 7

Incubating 3T3-L1 adipocytes with forskolin, which increases intracellular cAMP by activating adenylate cyclase, mimicked rapamycin by attenuating the effect of insulin on stimulating the phosphorylation of four (S/T)P sites in PHAS-I, a downstream target of the mammalian target of rapamycin (mTOR) signaling pathway. To investigate the hypothesis that increasing cAMP inhibits mTOR, the protein kinase activity of mTOR was measured in an immune complex assay with recombinant PHAS-I as substrate. Both forskolin and 8-(4-chlorophenylthio)adenosine 3'-5'-monophosphate (CPT-cAMP) prevented the activation of mTOR by insulin in adipocytes, but neither agent affected mTOR activity when added directly to the immunopurified protein. In contrast, the cAMP phosphodiesterase inhibitor, theophylline, inhibited mTOR activity not only when added to intact adipocytes but also when added to immunopurified mTOR in vitro, demonstrating that certain methylxanthines are able to inhibit mTOR independently of increasing cAMP. Forskolin and CPT-cAMP blocked the effect of insulin on increasing mTOR phosphorylation, which was assessed using mTAb1, an antibody whose binding is inhibited by phosphorylation of mTOR. Although the mTAb1 epitope contains a consensus site for protein kinase B, neither agent inhibited the activation of protein kinase B produced by insulin. These findings support the interpretation that increasing cAMP attenuates the effects of insulin on PHAS-I, p70(S6K), and other downstream targets of the mTOR signaling pathway by inhibiting the phosphorylation and activation of mTOR.
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PMID:Attenuation of mammalian target of rapamycin activity by increased cAMP in 3T3-L1 adipocytes. 985 18

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