Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.12 (PKG)
 2,515 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heat-stable enterotoxins activate guanylate cyclase, whereas heat-labile enterotoxins stimulate adenylate cyclase. Both classes of toxins cause secretory diarrhea at least in part by stimulating Cl- secretion in the intestine. The mechanism for regulation of Cl- secretion by guanosine 3',5'-cyclic monophosphate (cGMP) was investigated using cultured T84 intestinal cells as a model for intestinal crypt cells. Escherichia coli heat-stable enterotoxin (ST) markedly stimulated cGMP production in T84 cells. Cl- secretion across T84 cell monolayers cultured on permeable filters was stimulated by E. coli ST, cholera toxin, or 8-BrcAMP, but 8-BrcGMP was ineffective. cGMP analogues that are known to be potent and specific activators of cGMP-dependent protein kinase (cG-kinase) also had little effect on 36Cl- uptake by T84 cells cultured in plastic dishes. E. coli ST, forskolin, cholera toxin, or membrane-permeant cAMP analogues markedly increased 36Cl- uptake into T84 cells. The general protein kinase inhibitor, staurosporine, inhibited the stimulation of Cl- permeability elicited by E. coli ST, vasoactive intestinal peptide (VIP), or 8-BrcAMP. DEAE-Sephacel chromatography revealed a predominant type II isoform of cAMP-dependent protein kinase (cA-kinase) in T84 cells, whereas little or no cytosolic cG-kinase activity was found. Treatment of T84 cells with E. coli ST or VIP resulted in an increase in the cA-kinase activity ratio (-cAMP/+cAMP) if the cytosolic enzyme was assayed at reduced temperature (on ice).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of intestinal Cl- transport by heat-stable enterotoxin: activation of cAMP-dependent protein kinase by cGMP. 132 20

The signaling pathways mediating relaxation by vasoactive intestinal peptide (VIP), peptide histidine-isoleucine amide (PHI), isoproterenol (ISO), and sodium nitroprusside (SNP) were examined in dispersed rabbit and guinea pig gastric muscle cells. In rabbit muscle cells, SNP stimulated only guanosine 3',5'-cyclic monophosphate (cGMP) and cGMP-dependent protein kinase (cG-kinase) activity; VIP stimulated adenosine 3',5'-cyclic monophosphate (cAMP) and cGMP, and both cG-kinase and cAMP-dependent protein kinase (cA-kinase) activities; PHI and ISO stimulated only cAMP and cA-kinase activity, and at higher concentrations, cross-activated cG-kinase. All four agents elicited concentration-dependent relaxation. N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulfonamide (H-89; 1 microM) selectively inhibited cA-kinase activity and abolished relaxation when only cA-kinase was elevated. 8R,9S, 11S-(-)-9-methoxy-carbamyl-8-methyl-2,3,9,10-tetrahydro-8,11-epoxy- 1H,8H,11H-2,7b,11a-trizadibenzo-(a,g)-cy-cloocta-(c,d,e)- trinden-1-one (KT-5823; 1 microM) selectively inhibited cG-kinase activity and abolished relaxation when only cG-kinase was elevated. When both kinases were elevated, H-89 and KT-5823 partially inhibited relaxation and abolished relaxation in combination. In permeabilized guinea pig and rabbit muscle cells, all agents elicited relaxation and inhibited inositol 1,4,5-trisphosphate (IP3)-induced Ca2+ release. Both functions were inhibited in parallel fashion by protein kinase inhibitor PKI(6-22) and by KT-5823. We conclude that cA-kinase and cG-kinase act separately and in concert to inhibit IP3-dependent Ca2+ release and induce relaxation.
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PMID:Interaction of cA-kinase and cG-kinase in mediating relaxation of dispersed smooth muscle cells. 784 Jan 45

The mechanism of action of vasoactive intestinal peptide (VIP) was examined in isolated gastric and taenia coli muscle cells and compared with that of nitric oxide (NO), sodium nitroprusside (SNP), and isoproterenol. In gastric muscle cells, VIP stimulated NO production, increased adenosine 3',5'-cyclic monophosphate (cAMP) and guanosine 3',5'-cyclic monophosphate (cGMP) levels, and induced relaxation in a concentration-dependent fashion. The NO synthase inhibitor NG-nitro-L-arginine abolished NO and cGMP production and partly inhibited relaxation. The soluble guanylate cyclase inhibitor LY 83583 abolished cGMP production and partly inhibited relaxation. (R)-p-adenosine 3',5'-cyclic phosphorothioate [(R)-p-cAMPS], a preferential inhibitor of cAMP-dependent protein kinase (cAK), and KT5823, a preferential inhibitor of cGMP-dependent protein kinase (cGK), partly inhibited relaxation separately and abolished relaxation in combination. The pattern implied that VIP induced relaxation by activation of cAK and by NO-mediated stimulation of cGMP and activation of cGK. In taenia coli muscle cells, VIP did not increase NO production or cGMP levels: relaxation was accompanied by an increase in cAMP and was partly inhibited by (R)-p-cAMPS and KT5823 and abolished by a combination of both inhibitors. Isoproterenol increased only cAMP levels in both cell types, which induced relaxation by activating cAK at low concentrations of agonist and both cAK and cGK at high concentrations in a pattern identical to that observed with VIP in taenia coli muscle cells. SNP and NO increased only cGMP levels in both cell types, which induced relaxation by activating cGK only. We conclude that cAK and cGK can be activated separately and mediate relaxation independently.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of distinct cAMP- and cGMP-dependent pathways by relaxant agents in isolated gastric muscle cells. 838 96

Recent studies on the role of nitric oxide (NO) in gastrointestinal smooth muscle have raised the possibility that NO-stimulated cGMP could, in the absence of cGMP-dependent protein kinase (PKG) activity, act as a Ca(2+)-mobilizing messenger [K. S. Murthy, K.-M. Zhang, J.-G. f1p4 J. T. Grider, and G. M. Makhlouf. Am. J. Physiol. 265 (Gastrointest. Liver Physiol. 28): G660-G671, 1993]. This notion was examined in dispersed gastric smooth muscle cells with 8-bromo-cGMP (8-BrcGMP) and with NO and vasoactive intestinal peptide (VIP), which stimulate endogenous cGMP. In muscle cells treated with cAMP-dependent protein kinase (PKA) and PKG inhibitors (H-89 and KT-5823), 8-BrcGMP (10 microM), NO (1 microM), and VIP (1 microM) stimulated 45Ca2+ release (21 +/- 3 to 30 +/- 1% decrease in 45Ca2+ cell content); Ca2+ release stimulated by 8-BrcGMP was concentration dependent with an EC50 of 0.4 +/- 0.1 microM and a threshold of 10 nM. 8-BrcGMP and NO increased cytosolic free Ca2+ concentration ([Ca2+]i) and induced contraction; both responses were abolished after Ca2+ stores were depleted with thapsigargin. With VIP, which normally increases [Ca2+]i by stimulating Ca2+ influx, treatment with PKA and PKG inhibitors caused a further increase in [Ca2+]i that reverted to control levels in cells pretreated with thapsigargin. Neither Ca2+ release nor contraction induced by cGMP and NO in permeabilized muscle cells was affected by heparin or ruthenium red. Ca2+ release induced by maximally effective concentrations of cGMP and inositol 1,4,5-trisphosphate (IP3) was additive, independent of which agent was applied first. We conclude that, in the absence of PKA and PKG activity, cGMP stimulates Ca2+ release from an IP3-insensitive store and that its effect is additive to that of IP3.
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PMID:cGMP-mediated Ca2+ release from IP3-insensitive Ca2+ stores in smooth muscle. 961 5

Both cAMP- and cGMP-dependent protein kinases inhibit agonist-stimulated phospholipase C-beta (PLC-beta) activity and inositol 1,4,5-trisphosphate-dependent Ca2+ release in vascular and visceral smooth muscle. In smooth muscle of the intestinal longitudinal layer, however, the initial steps in Ca2+ mobilization involve activation of cytosolic PLA2 (cPLA2) and arachidonic acid (AA)-dependent stimulation of Ca2+ influx. The present study examined whether cAMP- and cGMP-dependent protein kinases are capable of regulating these processes also. Agents that activated cAMP-dependent protein kinase (5, 6-dichloro-1-beta-D-ribofuranosylbenzimidazole 3',5'-cyclic monophosphothioate (Sp-isomer) and isoproterenol), cGMP-dependent protein kinase (8-(4-chlorophenylthio)-guanosine 3',5'-cyclic monophosphate and Na nitroprusside), or both kinases (vasoactive intestinal peptide and isoproterenol >1 microM) induced phosphorylation of cPLA2 and inhibition of agonist-stimulated cPLA2 activity. Phosphorylation and inhibition of cPLA2 activity by cAMP- and cGMP-dependent protein kinases were blocked by the corresponding selective inhibitors (cAMP-dependent protein kinase, N-[2(p-bromocinnamylamino)ethyl]-5-isoquinoline-sulfonamide hydrochloride (H-89) and myristoylated protein kinase inhibitor () amide; cGMP-dependent protein kinase, (8R,9S, 11S)-(-)-9-methoxy-carbamyl-8-methyl-2,3,9,10-tetrahydro-8, 11-epoxy-1H,8H,11H,-2,7b,11a-trizadizobenzo(a,g)cycloocta(c, d, e)-trinden-1-one (KT-5823)). In contrast, AA-stimulated Ca2+ influx was inhibited by agents that activated cGMP-dependent protein kinase only; the inhibition was selectively blocked by KT-5823. The study provides the first evidence of inhibitory phosphorylation of cPLA2 in vivo by cAMP- and cGMP-dependent protein kinases. Inhibition of cPLA2 activity and AA-induced Ca2+ influx partly account for the ability of cAMP-dependent protein kinase and/or cGMP-dependent protein kinase to cause relaxation. Their importance resides in their location at the inception of the Ca2+ signaling cascade.
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PMID:Differential regulation of phospholipase A2 (PLA2)-dependent Ca2+ signaling in smooth muscle by cAMP- and cGMP-dependent protein kinases. Inhibitory phosphorylation of PLA2 by cyclic nucleotide-dependent protein kinases. 985 21

1. The spasmolytic and anti-spasmogenic activity of beta-adrenoceptor agonists on airways smooth muscle is thought to involve activation of the cyclic AMP/cyclic AMP-dependent protein kinase (PKA) cascade. Here we have tested the hypothesis that PKA mediates the anti-spasmogenic activity of isoprenaline and other cyclic AMP-elevating agents in guinea-pig isolated trachea by utilizing a number of cell permeant cyclic AMP analogues that act as competitive 'antagonists' of PKA. 2. Anion-exchange chromatography of guinea-pig tracheae resolved two peaks of PKA activity that corresponded to the type I ( approximately 5%) and type II ( approximately 93%) isoenzymes. 3. Pre-treatment of tracheae with zardaverine (30 microM), vasoactive intestinal peptide (VIP) (1 microM) and the non-selective activator of PKA, Sp-8-CPT-cAMPS (10 microM), produced a non-parallel rightwards shift in the concentration-response curves that described acetylcholine (ACh)-induced tension generation. The type II-selective PKA inhibitor, Rp-8-CPT-cAMPS (300 microM), abolished this effect. 4. Pre-treatment of tracheae with Sp-8-Br-PET-cGMPS (30 microM) produced a non-parallel rightwards shift of the concentration-response curves that described ACh-induced tension generation. The selective cyclic GMP-dependent protein kinase (PKG) inhibitor, Rp-8-pCPT-cGMPS (300 microM), abolished this effect. 5. Pre-treatment of tracheae with isoprenaline (1 microM) produced a 10 fold shift to the right of the ACh concentration-response curve by a mechanism that was unaffected by Rp-8-Br-cAMPS (300 microM, selective inhibitor of type I PKA), Rp-8-CPT-cAMPS (300 microM) and Rp-8-pCPT-cGMPS (300 microM). 6. We conclude that the anti-spasmogenic activity of Sp-8-CPT-cAMPS, zardaverine and VIP in guinea-pig trachea is attributable to activation of the cyclic AMP/PKA cascade whereas isoprenaline suppresses ACh-induced contractions by a mechanism(s) that is independent of PKA and PKG.
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PMID:Evidence that the anti-spasmogenic effect of the beta-adrenoceptor agonist, isoprenaline, on guinea-pig trachealis is not mediated by cyclic AMP-dependent protein kinase. 1149 3

SCN 2.2 cultures were stably transfected with luciferase reporter constructs driven by Ca(2+)/cAMP response element, E-box, or vasoactive intestinal peptide promoter to probe the circadian properties of this clock cell line. SCN 2.2 reporter lines displayed approximately 24-h rhythms of transcriptional activation after serum-shock. Serum-shocked cultures pulsed with glutamate exhibited phase-gated induction of phospho-CREB and of VIP, CRE, and E-box promoter activity. Glutamate-induced CRE promoter activity displayed restricted sensitivity to inhibitors of nitric oxide synthase and cGMP-dependent protein kinase. The temporal pattern of these sensitivities paralleled those of the SCN to light and glutamate during the night. Taken together, our data indicate that serum-shock can synchronize the circadian clock of SCN 2.2 cells to a state consistent with the day/night transition and, thus, establishes a temporal context for this cell line.
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PMID:Synchronization and phase-resetting by glutamate of an immortalized SCN cell line. 1237 31

Nitric oxide in the gut is produced by nNOS in enteric neurons and by eNOS in smooth muscle cells. The eNOS in smooth muscle is activated by vasoactive intestinal peptide (VIP) released from enteric neurons. In the present study, we examined the effect of nitric oxide on VIP-induced eNOS activation in smooth muscle cells isolated from human intestine and rabbit stomach. NOS activity was measured as formation of the 1:1 co-product, l-citrulline from l-arginine. VIP caused an increase in l-citrulline production that was inhibited by NO in a concentration dependent manner (IC(50)~25 microM; maximal inhibition 72% at 100 microM NO). Basal l-citrulline production, however, was unaffected by NO. The effect was not mediated by cGMP/PKG since the PKG inhibitor KT5823 had no effect on eNOS autoinhibition. The autoinhibition was selective for NO since the co-product l-citrulline had no effect on VIP-induced NOS activation. Similar effects were obtained in rabbit gastric and human intestinal smooth muscle cells. The results suggest that NO produced in smooth muscle cells as a result of the activation of eNOS by VIP exerts an autoinhibitory restraint on eNOS thereby regulating the balance of the VIP/cAMP/PKA and NO/cGMP/PKG pathways that regulate the relaxation of gut smooth muscle.
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PMID:Autoinhibition of endothelial nitric oxide synthase (eNOS) in gut smooth muscle by nitric oxide. 1892 58