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)

With use of the whole cell patch-clamp technique, effects of the potent muscarinic agonist oxotremorine methiodide (oxo-M) on voltage-activated Ca2+ channel currents were investigated in acutely dissociated adult rat intracardiac neurons. In all tested neurons oxo-M reversibly inhibited the peak Ba2+ current. Inhibition of the peak Ba2+ current by oxo-M was associated with slowing of activation kinetics and was concentration dependent. The concentration of oxo-M necessary to produce a half-maximal inhibition of current and the maximal inhibition were 40.8 nM and 75.9%, respectively. Inhibitory effect of oxo-M was completely abolished by atropine. Among different muscarinic receptor antagonists, methoctramine (100 and 300 nM) significantly antagonized the current inhibition by oxo-M, with a negative logarithm of dissociation constant of 8.3 in adult rat intracardiac neurons. Internal dialysis of neurons with guanosine 5'-(thio)triphosphate (GTPgammaS, 0.5 mM) could mimic the muscarinic inhibition of the peak Ba2+ current and significantly occlude inhibitory effects of oxo-M. In addition, the internal dialysis of guanosine-5'-O-(2-thiodiphosphate) (GDPbetaS, 2 mM) also significantly reduced the muscarinic inhibition of the peak Ba2+ current by oxo-M. Inhibitory effects of oxo-M were significantly abolished by pertussis toxin (PTX, 200 and 400 ng/ml) but not by cholera toxin (400 ng/ml). Furthermore, the bath application of N-ethylmaleimide (50 microM) significantly reduced the inhibition of the peak Ba2+ current by oxo-M. The oxo-M shifted the activation curve derived from measurments of tail currents toward more positive potentials. A strong conditioning prepulse to +100 mV significantly relieved the muscarinic inhibition of peak Ba2+ currents by oxo-M and the GTPgammaS-induced current inhibition. In a series of experiments, changes in intracellular concentration of bis-(o-aminophenoxy)-N,N,N',N'-tetraacetic acid and protein kinase activities failed to mimic or occlude the current inhibition by oxo-M. The dihydropyridine antagonist nifedipine (10 microM) was not able to occlude any of the inhibitory effects of oxo-M, and oxo-M (3 microM) failed to reduce the slow tail currents induced by the L-type agonist methyl 2,5-dimethyl-4-[2-(phenylmethyl)benzoyl]-1H-pyrrole-3-carboxylate (FPL 64176; 2 microM). However, omega-conotoxin (omega-CgTX) GVIA (1 microM) significantly occluded the muscarinic inhibition of the Ba2+ currents. In the presence of omega-CgTX GVIA (1 microM) and nifedipine (10 microM), oxo-M could further inhibit approximately 20% of the total Ca2+ current. After complete removal of N-, Q-, and L-type currents with use of omega-CgTX GVIA, omega-agatoxin IVA, and nifedipine, 70% of the R-type current (approximately 6-7% of the total current) was inhibited by oxo-M (3 microM). In conclusion, the M2 muscarinic receptor activation selectively inhibits N-, Q-, and R-type Ca2+ channel currents, sparing L-type Ca2+ channel currents mainly via a PTX- and voltage-sensitive pathway in adult rat intracardiac neurons.
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PMID:Muscarinic receptor activation modulates Ca2+ channels in rat intracardiac neurons via a PTX- and voltage-sensitive pathway. 931 Apr 37

1. It has been suggested that activation of cyclic GMP-dependent protein kinase (PKG) is a necessary step in the chain of events leading to the production of negative inotropy by muscarinic receptor agonists in mammalian ventricles, and that some cyclic GMP-elevating agents, such as sodium nitroprusside (SNP), fail to exert a negative inotropic effect because they elevate cyclic GMP levels in a pool that does not activate the kinase. This hypothesis was tested in the present study by monitoring the effects of carbachol, SNP and atrial natriuretic peptide (ANP) on contractility, cyclic GMP content and PKG activity in rat intact ventricular preparations and freshly isolated ventricular cardiomyocytes. 2. The presence of PKG in both the intact vehicle and in isolated ventricular cardiomyocytes was confirmed by MonoQ anion exchange chromatography and Western blotting. The elution profile indicated that the conditions of the PKG assay were selective for measuring PKG activity. 3. Carbachol induced a marked negative inotropic effect in intact, perfused hearts and ventricular strips in the presence of isoproterenol. The negative inotropic effect of carbachol was not associated with significant changes in cyclic GMP content or PKG activity in intact ventricular tissue, or in PKG activity in isolated cardiomyocytes. 4. SNP and ANP significantly increased cyclic GMP levels and activated PKG in intact ventricular preparations. Both drugs also activated PKG in isolated cardiomyocytes. However, neither drug had any negative inotropic effect in isoprenaline-stimulated perfused hearts and ANP did not change the contractility of isoprenaline-stimulated isolated cardiomyocytes. 5. The results of this study demonstrate that the negative inotropic effects of muscarinic receptor agonists can occur in the absence of significant activation of PKG. Conversely, marked increases in ventricular cyclic GMP content and PKG activity caused by SNP or ANP were not accompanied by a negative inotropic effect. 6. These results suggest that increases in cyclic GMP levels and activation of PKG do not play important roles in the regulation of rat ventricular contractility by muscarinic receptor agonists.
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PMID:Cyclic GMP-dependent protein kinase activation in the absence of negative inotropic effects in the rat ventricle. 942 Dec 91

It has not been known whether or not the axoplasmic transport depends on regulatory influences mediated by neurotransmitters. The video-enhanced microscope technique has made it possible to visualize the real-time movement of micro-particles along axons and thus to observe its quick response to external signals. Using this technique, the effects of acetylcholine (ACh) and adrenaline on the axoplasmic transport in cultured cervical ganglion (SCG) cells were examined. Application of ACh inhibited the transport in both anterograde and retrograde directions. This effect was mimicked by the muscarinic receptor agonist arecoline, but not by the nicotinic receptor agonist nicotine. The response to ACh was inhibited by QNX (3-quinuclidinyl-xanthine-9-carboxylate), a muscarinic receptor antagonist. Immunocytochemistry and in situ hybridization with anti-muscarinic receptor subtypes compounds demonstrated the expression of m2 receptors on the SCG cell. Islet-activation protein (IAP), a G-protein inhibitor, completely blocked the suppressive effect of ACh. The protein kinase A (PKA) inhibitor KT-5720 induced a similar effect to that of ACh. In contrast to the effect of ACh, adrenaline increased both anterograde and retrograde transport. The beta 2-receptor agonist (albuterol), but not alpha-receptor agonists (phenylphrine and clonidine) or beta 1-receptor agonist (dobutamine), mimicked the effect of adrenaline. The beta 2-receptor antagonist butoxamine abolished the facilitatory response to adrenaline. Dibutyryl cyclic AMP, a membrane permeable cAMP, and forskolin, an activator of adenylyl cyclase, induced a similiar effect to that of adrenaline. These results suggest that 1) ACh, acting through m2-receptors, activates Gi-protein and thus inhibits cAMP synthesis, 2) adrenaline, acting through beta 2-receptors, increases intracellular cAMP concentration, and 3) these changes in cyclic AMP levels inhibit or enhance the activity of PKA to phosphorylate proteins related to the axoplasmic transport.
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PMID:[Neurotransmitter-mediated regulatory mechanisms of axoplasmic transport--acetylcholine and adrenaline]. 957 58

The effects of cyclic AMP-generating substances and of the cAMP-dependent protein kinase (PKA) inhibitor H89 on the inositol 1,4,5-trisphosphate (IP3) and Ca2+ responses to acetylcholine (ACh) were examined in rat submandibular acini. Pre-exposure to forskolin (5 microM) and to dibutyryl cyclic AMP (db-cAMP, 1 mM) increased the IP3 formation in response to ACh while H89 reduced it. The enhancement of the IP3 response was not seen, however, in cells pre-exposed to isoproterenol (10 microM) for 45 min. Despite the increase in IP3 formation, pre-exposure to forskolin or db-cAMP inhibited the release of Ca2+ induced by ACh in cells incubated in Ca2+-free solutions. H89 had no effect on the ACh-generated Ca2+ signal. Manipulation of PKA had no effect on the release of Ca2+ induced by thapsigargin. Pre-exposure to test substances caused changes in the rate of Ca2+ influx which paralleled those in Ca2+ release. It is concluded that PKA interacts with IP3/Ca2+-mediated signaling in submandibular cells at two levels, IP3 generation and Ca2+ release from IP3-sensitive stores. Through phosphorylation of target elements, PKA modifies the coupling of the muscarinic receptor with membrane phosphoinositides and the sensitivity of endoplasmic Ca2+ channels to IP3. The effects on these two components of the IP3/Ca2+ signaling pathway depend, however, on the length of exposure to test substances and on the up- or down-regulation of PKA.
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PMID:Cross-talk in signal transduction pathways of rat submandibular acinar cells. 982 20

The signalling pathway leading to an activation of mitogen-activated protein (MAP) kinase subtypes Erk-1 and -2 upon stimulation of muscarinic receptor with carbachol in human neuroblastoma SK-N-BE2(C) cells was investigated. Carbachol activated Erk-1/-2 by stimulating M3 muscarinic receptor, as determined by specific antagonists for individual muscarinic receptors. The activation of Erk-1/-2 by carbachol was blocked by the inhibition or down-regulation of protein kinase C (PKC). Among the multiple PKC isoforms expressed in SK-N-BE2(C) cells, only PKCepsilon was activated by the treatment of carbachol, and selective down-regulation of PKCepsilon was sufficient to block Erk-1/-2 activation. Carbachol treatment induced activation of the serine/threonine protein kinase Raf, and an inhibition of Raf blocked Erk-1/-2 activation. Ectopic expression of inhibitory small GTPase Ras, RasN17, blocked the carbachol-induced Raf activation without affecting the activation of PKCepsilon, while the inhibition of PKC blocked the Raf activation. Thus, these results suggest that carbachol-induced activation of PKCepsilon mediates Erk-1/-2 activation by a sequential activation of Ras, Raf and MAP kinase kinase.
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PMID:Signalling pathway leading to an activation of mitogen-activated protein kinase by stimulating M3 muscarinic receptor. 988 25

Pre-stimulation of Chinese hamster ovary (CHO) cells expressing the human m1-muscarinic receptor (CHO-m1 cells) with a maximally effective concentration of the muscarinic agonist methacholine resulted in desensitization of Ins(1,4,5)P3 accumulation, apparent as a approximately 4-fold shift in the agonist dose-response curve. Agonist-induced desensitization was rapid (detectable by 10 s) and concentration dependent (EC50=8.2+/-2.2 microM) and resulted in a complete loss of receptor reserve for the agonist-stimulated Ins(1,4, 5)P3 response. An investigation of the possible mechanisms involved in m1-muscarinic receptor desensitization indicated that agonist-induced receptor internalization, PtdIns-(4,5)P2 depletion or an increased rate of Ins(1,4,5)P3 metabolism were not involved. m1-Muscarinic receptors did, however, undergo rapid agonist-induced phosphorylation with a time course that was consistent with an involvement in receptor desensitization. Characterization studies indicated that the receptor-specific kinase involved was distinct from protein kinase C and other second-messenger-dependent protein kinases. Since previous studies have suggested that the m3-muscarinic receptor subtype undergoes agonist-dependent phosphorylation via casein kinase 1alpha (CK1alpha) [Tobin, Totty, Sterlin and Nahorski (1997) J. Biol. Chem. 272, 20844-20849], we examined the ability of m1-muscarinic receptors to be phosphorylated by this kinase. In reconstitution experiments, CK1alpha was able to phosphorylate purified, soluble m1-muscarinic receptors in an agonist-dependent manner.
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PMID:Agonist-induced desensitization and phosphorylation of m1-muscarinic receptors. 993 14

Chronic opioid treatment has been shown to develop supersensitization of adenylyl cyclase (AC) system or cAMP overshoot. In this study, we investigated the molecular mechanism of supersensitization of AC system using CHO cells expressing one of the cloned mu-, delta- and kappa-opioid receptors. In naive cells, acute treatment with an opioid agonist, but not antagonist, suppressed forskolin-stimulated cAMP accumulation. In the cells sustainedly (4 hr) treated with the agonist, the challenge by antagonist induced the cAMP overshoot over the naive level (supersensitization of AC system), but had no effect on GTPase activity. This supersensitization of AC system was not affected by pretreatment with cycloheximide, a protein synthesis inhibitor, or various protein kinase inhibitors (H7, H8, H89 and staurosporine). On the other hand, pretreatment with pertussis toxin blocked both inhibition of AC activity by acute agonist treatment and development of supersensitization of AC system. To examine an involvement of the interaction between G protein and AC in the supersensitization of AC system, we used CHO cells coexpressing the opioid receptor and some chimeric G alpha proteins between G alpha i2 and G alpha q. The results revealed that a specific region of G alpha i2, which is responsible for the interaction with AC, is closely related to the supersensitization. In addition, the supersensitization of AC system was induced by sustained muscarinic agonist treatment in CHO cells expressing the cloned m2 or m4 muscarinic receptor, suggesting this phenomenon is common to the members of the Gi-coupled receptor superfamily. In conclusion, these findings suggest that the development of supersensitization of AC system is attributed to a continuous inhibition of AC by G alpha i, but not to continuous activations of the Gi-coupled receptor and G protein themselves.
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PMID:[A molecular mechanism for supersensitization of adenylyl cyclase system in cloned opioid receptor-transfected cells following sustained opioid treatment]. 1019 Jan 39

A number of recent studies have demonstrated an essential role for receptor endocytosis in the activation of the mitogen-activated protein (MAP) kinases, Erk-1 and Erk-2 (extracellular activated protein kinases 1 and 2), by growth factor receptors and the G-protein coupled beta2-adrenergic receptor. Because ligand-mediated receptor endocytosis and activation of the MAP kinase pathway are common phenomena among G-protein coupled receptors, it has been suggested that the essential role of endocytosis in MAP kinase activation identified for the beta2-adrenergic receptor may be universal for all G-protein coupled receptors (Daaka,Y., Luttrell, L. M., Ahn, S., Della Rocca, G. J., Ferguson, S. S. G., Caron, M. G., and Lefkowitz, R. J. (1998) J. Biol. Chem. 273, 685-688). We tested this hypothesis using the Gq/11-coupled m3-muscarinic receptor expressed in Chinese hamster ovary cells and an m3-muscarinic receptor mutant that does not undergo endocytosis. We demonstrate that inhibition of endocytosis by concanavalin A and cytochalasin D does not affect the ability of the wild type m3-muscarinic receptor to activate Erk-1/2. Furthermore, the mutant m3-muscarinic receptor that is unable to undergo endocytosis, activates the MAP kinase pathway in an identical manner to the wild type receptor. We conclude that receptor endocytosis is not universally essential for MAP kinase activation by G-protein coupled receptors. We discuss the possibility that the differential roles played by endocytosis in MAP kinase activation between various receptor subtypes may be linked to the mechanism of upstream activation of Raf-1.
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PMID:Activation of the mitogen-activated protein kinase pathway by a Gq/11-coupled muscarinic receptor is independent of receptor internalization. 1021 6

The expression of the c-jun proto-oncogene is rapidly induced in response to mitogens acting on a large variety of cell surface receptors. The resulting functional activity of c-Jun proteins appears to be critical for cell proliferation. Recently, we have shown that a large family of G protein-coupled receptors (GPCRs), represented by the m1 muscarinic receptor, can initiate intracellular signaling cascades that result in the activation of mitogen-activated protein kinases (MAPK) and c-Jun NH2-terminal kinases (JNK) and that the activation of JNK but not of MAPK correlated with a remarkable increase in the expression of c-jun mRNA. Subsequently, however, we obtained evidence that GPCRs can potently stimulate the activity of the c-jun promoter through MEF2 transcription factors, which do not act downstream from JNK. In view of these observations, we set out to investigate further the nature of the signaling pathway linking GPCRs to the c-jun promoter. Utilizing NIH 3T3 cells, we found that GPCRs can activate the c-jun promoter in a JNK-independent manner. Additionally, we demonstrated that these GPCRs can elevate the activity of novel members of the MAPK family, including ERK5, p38alpha, p38gamma, and p38delta, and that the activation of certain kinases acting downstream from MEK5 (ERK5) and MKK6 (p38alpha and p38gamma) is necessary to fully activate the c-jun promoter. Moreover, in addition to JNK, ERK5, p38alpha, and p38gamma were found to stimulate the c-jun promoter by acting on distinct responsive elements. Taken together, these results suggest that the pathway linking GPCRs to the c-jun promoter involves the integration of numerous signals transduced by a highly complex network of MAPK, rather than resulting from the stimulation of a single linear protein kinase cascade. Furthermore, our findings suggest that each signaling pathway affects one or more regulatory elements on the c-jun promoter and that the transcriptional response most likely results from the temporal integration of each of these biochemical routes.
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PMID:A network of mitogen-activated protein kinases links G protein-coupled receptors to the c-jun promoter: a role for c-Jun NH2-terminal kinase, p38s, and extracellular signal-regulated kinase 5. 1033 Jan 70

We investigated the effect of carbachol (CCh) on L-type Ca2+ current (ICa(L)) enhanced by dialyzed adenosine 3',5'-cyclic monophosphate (cAMP) and/or bath-applied 3-isobutyl-1-methylxanthine (IBMX) in guinea pig isolated ventricular myocytes. At pipette concentrations ([cAMP]pip) from 30 microM to 1 mM, cAMP increased ICa(L) to 25.8 +/- 0.9 microA/cm2 (682 +/- 24.8% increase above control). CCh (100 microM) did not inhibit ICa(L) at any [cAMP]pip. IBMX, a nonselective phosphodiesterase (PDE) inhibitor, increased ICa(L) maximally at 300 microM IBMX (17.9 +/- 0.7 microA/cm2; 449 +/- 20% increase). CCh (100 microM) inhibited ICa(L) by 92 +/- 9.5% at 30 microM IBMX and 78 +/- 4.6% at 100 microM IBMX; this effect was reduced or absent at higher IBMX concentrations (300 and 1,000 microM). Coadministration of cAMP and IBMX also progressively suppressed inhibition by CCh. CCh had a negligible effect on ICa(L) at 750 microM IBMX in the absence of pipette cAMP and at 50 microM IBMX in the presence of 100 microM [cAMP]pip. ACh-activated K+ current (IK(ACh)) was unchanged in atrial myocytes dialyzed with 100 microM cAMP; this excludes a phosphorylation-dependent desensitization of the muscarinic receptor (mAChR) or Gi by cAMP. LY83583 (100 microM), an inhibitor of cyclic guanosine monophosphate (cGMP) production, attenuated inhibition of ICa(L) by CCh in the presence of IBMX. 8-Bromo-cGMP (8-Br-cGMP), an activator of cGMP-dependent protein kinase (PKG), mimicked CCh in its actions on ICa(L) raised by both cAMP (no significant change) and IBMX (49 +/- 5.1% inhibition). Okadaic acid, an inhibitor of type 1 and 2A phosphatases, blocked inhibition of IBMX-stimulated ICa(L) by either CCh or 8-Br-cGMP. Thus the ability of CCh to inhibit ICa(L) appears caused by cGMP/PKG activation of an okadaic acid-sensitive protein phosphatase, and elevated levels of cAMP protect against this action.
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PMID:Elevated cAMP suppresses muscarinic inhibition of L-type calcium current in guinea pig ventricular myocytes. 1044 83

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