Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many studies suggest that smooth muscle relaxation caused by beta-adrenergic agents and various neuropeptides occurs as a result of an increase in cellular adenosine 3',5'-cyclic monophosphate (cAMP). However, the evidence is indirect, and furthermore does not demonstrate that an increase in cAMP is essential for mediating relaxation. To define more clearly the role of cAMP in receptor-mediated smooth muscle relaxation, we used a specific competitive antagonist of the action of cAMP on protein kinase A, (R)-p-adenosine 3',5'-cyclic phosphorothioate [(R)-p-cAMPS], and its S isomer, (S)-p-cAMPS, which functions as a cAMP agonist. In gastric smooth muscle cells from guinea pig, (S)-p-cAMPS caused a dose-related relaxation [50% inhibitory concentration (IC50) 86 +/- 59 nM]. Vasoactive intestinal peptide (VIP) produced smooth muscle cell relaxation (IC50 2.3 +/- 0.8 nM) through occupation of specific VIP receptors. (R)-p-cAMPS inhibited VIP-induced relaxation, with a rightward shift in the VIP dose-response curve, suggesting competitive antagonism. Furthermore, (R)-p-cAMPS inhibited relaxation induced by other agents that increase cellular cAMP (isoproterenol, calcitonin gene-related peptide, and glucagon) but not that induced by ATP or sodium nitroprusside. (R)-p-cAMPS had no effect on contraction stimulated by carbachol, cholecystokinin, or substance P. These data demonstrate that activation of protein kinase A is primarily responsible for mediating gastrin smooth muscle relaxation produced by adrenergic agents and various neuropeptides.
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PMID:A primary role for protein kinase A in smooth muscle relaxation induced by adrenergic agonists and neuropeptides. 132 27

This study shows the presence of seven different low-molecular-weight GTP binding proteins (smg proteins) with molecular masses between 18 and 27 kDa in subfractions of rat pancreatic acinar cells. After stimulation of isolated intact and permeabilized pancreatic acinar cells with cholecystokinin octapeptide (CCK-OP), the diacylglycerol (DG) analogue 12-O-tetradecanoylphorbol 13-acetate (TPA), vasoactive intestinal peptide (VIP), adenosine 3',5'-cyclic monophosphate (cAMP), or guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S), [alpha-32P]GTP binding to 21- to 22-kDa smg protein(s) in microsomal membranes (MM) was reduced, whereas the [alpha-32P]GTP binding to 23-kDa protein(s) was enhanced. In addition, prestimulation of permeabilized cells with GTP gamma S caused enhancement of [alpha-32P]GTP binding to a 19-kDa protein in MM [immunologically identified as the ADP-ribosylation factor (arf)]. In the presence of cytosol, direct addition of GTP gamma S to isolated MM resulted in an apparent translocation of the 19-kDa protein (arf) from the cytosol to membranes. This indicates increased association of arf with the membrane in its GTP-bound state. In CCK-OP-prestimulated acinar cells, [alpha-32P]GTP binding to plasma membrane-located 21- to 22-kDa proteins (immunologically identified as p21ras proteins) was enhanced, suggesting that there is an interrelationship between p21ras proteins and CCK receptors. Our results give evidence for a role of 19-kDa, 21- to 22-kDa, and 23-kDa smg proteins in cAMP-protein kinase A- and DG-protein kinase C-mediated stimulation of intracellular pathways in pancreatic acinar cells.
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PMID:Effects of agonists on p21ras and ras-related proteins in rat pancreatic acinar cells. 141 52

Recordings of [Ca2+]i in single AR42J cells loaded with Fura 2 were used to study regulation of [Ca2+]i oscillation. Continuous stimulation with the cholecystokinin analogue, (t-butyloxycarbonyl-Tyr-(SO3)-norleucine-Gly-Trp-Nle-Asp-2-phenylethyl ester) or carbachol evoked long lasting oscillation in [Ca2+]i. Removal of CCK-JMV-180 after brief stimulation did not abruptly stop the oscillation. Rather, removal of CCK-JMV-180 resulted in time-dependent reduction in amplitude with little change in frequency of oscillation. The patterns of [Ca2+]i oscillation were affected by activation of protein kinase C and protein kinase A. However, down-regulation of protein kinase C activity did not prevent stimulation of [Ca2+]i oscillation. Hence, we conclude that an active protein kinase C pathway is not crucial for [Ca2+]i oscillation in this cell line. Variation in extracellular Ca2+ concentration (Ca2+out) was used to further characterize the oscillation. Reducing Ca2+out to approximately 10 microM resulted in a time dependent inhibition of [Ca2+]i oscillation. Subsequent step increases in Ca2+out up to 2-3 mM resulted in increased amplitude and frequency of oscillation. Further increase in Ca2+out or an increase in plasma membrane permeability to Ca2+, brought about by an increase in pHo, resulted in increased amplitude, decreased frequency, and modified shape of the [Ca2+]i spikes. These observations point to the existence of regulatory mechanisms controlling the duration of Ca2+ release and entry during [Ca2+]i oscillation.
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PMID:Regulation of intracellular Ca2+ oscillation in AR42J cells. 170 Nov 71

The regulation of intestinal peptide-YY (PYY) synthesis and secretion has not been well studied. We have used fetal rat intestinal cells in culture to examine the intra- and extracellular factors controlling the production of PYY. Immunohistochemical analysis demonstrated a distinct population of cells containing immunoreactive PYY (IR-PYY). When examined by HPLC, the IR-PYY stored and secreted by fetal rat intestinal cell cultures eluted as a single moiety with the same elution time as synthetic rat PYY. Pro-PYY mRNA transcript levels and secretion of IR-PYY into the cell medium were increased by activation of protein kinase-A with either a long-acting cAMP analog or forskolin. In contrast, IR-PYY secretion only was stimulated in a synergistic fashion through calcium- and protein kinase-C-dependent pathways (stimulated with A23187 and phorbol myristate acetate, respectively). The intestinal endocrine peptide, gastric inhibitory peptide, and the neurocrine peptide, gastrin-releasing peptide, were found to stimulate IR-PYY secretion in a dose-dependent fashion, with significant effects observed at concentrations as low as 10(-8) and 10(-12) M, respectively (P less than 0.05-0.001). Cholecystokinin and vasoactive intestinal peptide were without effect on IR-PYY secretion at doses of 10(-12)-10(-6) M. The fatty acid sodium oleate and the cholinergic agonist bethanechol were also found to stimulate IR-PYY secretion, each at a concentration of 10(-4) M (P less than 0.001). The results of the present study indicate that the synthesis and secretion of PYY by the rat intestine is under the regulatory control of a wide variety of extracellular agents, mediated by several intracellular signalling pathways.
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PMID:Regulation of peptide-YY synthesis and secretion in fetal rat intestinal cultures. 172 93

In this study we have examined the effects of prostaglandin E2 (PGE2), the cyclooxygenase inhibitor, indomethacin, and a protein kinase A inhibitor (PKA-I) on the Cl- conductance in isolated zymogen granules (ZG) from cholecystokinin octapeptide (CCK-8) pre-stimulated pancreatic acini. The Cl- conductance in isolated ZG from CCK-8 pre-stimulated rat pancreatic acini increases with increasing CCK-8 concentrations and decreases at supramaximal CCK-8 concentrations. The basal and CCK-8-stimulated Cl- conductance in ZG is inhibited by pretreatment of acini with PGE2 (10(-6) M). This PGE2-induced inhibition is abolished in the presence of PKA-I (20 U/ml). Furthermore, pretreatment of acini with indomethacin (10(-5) M) or PKA-I (20 U/ml) abolishes the decrease in the CL- conductance at supramaximal CCK-8 concentrations (10(-9) M). We conclude that the inhibition of the CL- conductance in isolated ZG at high CCK-8 concentrations is mediated by an enhanced production of PGE2, and that PGE2 operates by stimulating adenylate cyclase (AC) with a consequent rise in cAMP and activation of PKA.
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PMID:PGE2 regulates cholecystokinin-octapeptide (CCK-8)-stimulated Cl- conductance in isolated zymogen granules from rat pancreas. 172 67

The sulphated octapeptide of cholecystokinin (CCK-8S) was found to cause a dose-dependent increase in the basal release of aspartate, glycine, and gamma-aminobutyric acid from the striatum and the ventromedial nucleus of the hypothalamus (VMH). No effect on amino acid release was observed after electrical (VMH) or potassium (striatum) stimulation. Experiments performed using the CCKB-selective antagonist L-365,260 and the CCKA-selective antagonist L-364,718 suggested that this action of CCK-8S was mediated via the CCKB receptor. The ability of CCK-8S to evoke amino acid release was not dependent on the presence of extracellular calcium, though the effect was abolished by tetrodotoxin. Inhibition of protein kinase activity by staurosporine prevented the excitatory effects of CCK-8S on amino acid release.
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PMID:Effect of cholecystokinin octapeptide on endogenous amino acid release from the rat ventromedial nucleus of the hypothalamus and striatum. 200 50

Three distinct classes of protein kinases have been shown to regulate Ca2+ current in excitable tissues. Cyclic AMP-dependent protein kinase mediates the action of noradrenaline on the Ca2+ current of cardiac muscle cells. Cyclic GMP-dependent protein kinase mediates the serotonin-induced modulation of the Ca2+ current in identified snail neurons. The Ca2+/diacylglycerol-dependent protein kinase (protein kinase C) has also been found to regulate Ca2+ currents of neurons. However, no neurotransmitter has yet been shown to regulate Ca2+ current through the activation of protein kinase C. We now report that cholecystokinin, a widely occurring neuropeptide which is present in molluscan neuron, modulates the Ca2+ current in identified neurons of the snail Helix aspersa, and that this effect appears to be mediated by protein kinase C. Specifically, sulphated cholecystokinin octapeptide 26-33 (CCK8), activators of protein kinase C, and intracellular injection of protein kinase C, all shorten the Ca2+-dependent action potential and decrease the amplitude of the Ca2+ current in these cells. All these effects are not reversible within the duration of the experiments. Moreover, intracellular injections of low concentrations of protein kinase C, which are ineffective by themselves, enhance the effectiveness of low concentrations of CCK8 on the Ca2+ current.
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PMID:Cholecystokinin induces a decrease in Ca2+ current in snail neurons that appears to be mediated by protein kinase C. 243 59

The effect of cholecystokinin (CCK)-gastrin family peptides (caerulein, unsulfated gastrin-17, and pentagastrin) and secretin in activating amiloride-sensitive 22Na uptake were investigated in guinea pig pancreatic acini. Secretin had no effect, but CCK-gastrin peptides stimulated the amiloride-sensitive 22Na uptake. The effect of caerulein was inhibited by dibutyryl guanosine 3',5'-cyclic monophosphate (cGMP) and asperlicin, indicating that activation of the Na+-H+ antiport caused by caerulein is mediated by CCK receptors. The effect of gastrin was dibutyryl cGMP and asperlicin insensitive, whereas the effect of pentagastrin was inhibited by the CCK antagonists but with a low affinity, indicating that the effect of gastrin and that of pentagastrin was CCK receptor independent. The calcium ionophore A23187 caused an increase in amiloride-sensitive 22Na uptake. However, the effect of caerulein, which increased internal calcium concentration, was not modified after depletion of intracellular calcium, and that of CCK-gastrin family peptides was not dependent on external calcium concentration. Activation of amiloride-sensitive 22Na uptake was also induced by 12-O-tetradecanoylphorbol 13-acetate and 1-oleoyl-2-acetyl-glycerol. Activation of protein kinase c may be involved in the mechanism of caerulein or gastrin in activating the Na+-H+ exchange.
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PMID:Distinct activation of Na+-H+ exchange by gastrin and CCK peptide in acini from guinea pig. 244 99

1,2-Bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid acetoxymethyl ester (BAPTA/AM), an intracellular calcium [( Ca2+]i) chelator, was used to investigate the role of [Ca2+]i in acid secretory activity and protein phosphorylation in parietal cells from rabbit. Chelation of extracellular calcium [( Ca2+]o) with ethylene glycol-bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid did not prevent the initial carbachol-induced elevation of [Ca2+]i as measured with the fluorescent Ca2+ probe, fura-2, and only partially inhibited [14C]-aminopyrine (AP) accumulation, an indirect indicator of acid secretory activity. [Ca2+]i chelation with BAPTA/AM eliminated carbachol-stimulated increases in [Ca2+]i and AP accumulation but only transiently reduced histamine stimulation of AP accumulation. Carbachol increased phosphorylation of a 36-kDa, pI approximately 7 protein (pp36) and transient phosphorylation of a 28-kDa, pI approximately 5 protein (pp28), whereas histamine increased phosphorylation of 40-kDa, pI approximately 6.5 (pp40) and 27-kDa, pI approximately 6.2 (pp27) proteins. Phosphorylation of pp36 and pp28 were mimicked by the protein kinase C activator, 12-O-tetradecanoylphorbol-13-acetate (TPA) and the calcium ionophore, ionomycin, respectively. Two other phosphoproteins with molecular weights of 66,000 and pIs of 5.7 and 5.9 were also phosphorylated in response to TPA and carbachol. Chelation of [Ca2+]i and [Ca2+]o blocked carbachol-induced phosphorylation of pp28 and pp36 and ionomycin phosphorylation of pp28 but not TPA-stimulated phosphorylation of pp36 or the two pp66s or histamine-stimulated phosphorylation of pp27 or pp40. Chelation of [Ca2+]i alone did not block increases in [Ca2+]i or phosphorylation of pp28 in response to ionomycin. Both pp28 and pp36 were localized in both microsomal and cytosolic fractions of cells, which suggests involvement in cytoskeleton-membrane interactions. These phosphoproteins could be common elements of Ca2+-dependent stimulus-secretion coupling as similar proteins were phosphorylated by carbachol and cholecystokinin (CCK) in chief cells. Based on data with TPA and ionomycin, both protein kinase C and an as yet unidentified Ca2+-dependent protein kinase(s) appear to be activated upon stimulation with cholinergic agonists and CCK.
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PMID:Carbachol-induced protein phosphorylation in parietal cells: regulation by [Ca2+]i. 250 25

Previous studies of enzyme secretion from isolated pancreatic acinar cells and of isolated zymogen granules (ZG) have reported that both a Cl- and a K+ permeability are present on the ZG membrane. It has been suggested that ion influx via these permeability pathways, followed by water movement is required for granular swelling which appears to be intimately related to exocytosis. However, little is known about the regulation of these pathways by secretagogues. Evidence suggests that cAMP-protein kinase A and diacylglycerol-protein kinase C are second messengers in stimulation of exocytosis. In the present study we have examined ion permeability pathways in ZG isolated from control cells and from cells pretreated with the acetylcholine analog carbachol (Cch), with the peptide hormone cholecystokinin (CCK) and with second messengers of hormone action such as cAMP and the diacylglycerol analog 12-O-tetradecanoyl phorbol-13-acetate (TPA). Ion and water influx rates in ZG and consequent swelling and lysis of granules was monitored by measuring changes in optical densities of ZG suspensions at 540 nm following additions of the electrogenic or electroneutral ionophores valinomycin and nigericin, respectively. The data show that both a Cl- conductance and an anion exchange pathway are present in the granule membrane. Both pathways are activated by pretreatment of isolated cells with CCK or of isolated permeabilised cells with cAMP, whereas only the Cl- conductance is increased by pretreatment with Cch or with TPA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Secretagogue and second messenger-activated Cl- permeabilities in isolated pancreatic zymogen granules. 256 Jan 64


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