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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied, in rat sensory neurons, the modulation of high voltage-activated Ca2+ currents (ICa) mediated by the pertussis toxin-sensitive activation of muscarinic receptors, which were found to be of subtypes M2 or M4. Muscarine reversibly blocked somatic Ca2+ spikes but strong predepolarizations only partially relieved the inhibited Ca2+ current. On the other hand, the putative coupling messenger could not rapidly diffuse towards channels whose activity was recorded from a macro-patch. The perforated patch technique virtually prevented the response rundown present during whole-cell experiments. Both omega-conotoxin GVIA (omega-CgTx)-sensitive channels and omega-CgTx- and dihydropyridine-resistant channels are coupled to the muscarinic receptor, but not the L-channel. When measured in the same neuron, dose-response relationships for the first and subsequent agonist applications differed; maximal inhibition, the reciprocal of half-maximal concentration and the Hill coefficient were always highest in the first trial. Muscarine and oxotremorine exhibited monotone dose-response curves, but oxotremorine-M showed non-linear relationships which became monotonic when cells were intracellularly perfused with inhibitors of protein kinase A (PKA) and C (PKC), suggesting that either PKA or receptor-induced PKC could phosphorylate and thus inactive G-proteins or other unknown proteins involved in inhibitory muscarinic actions on ICa. In summary, these data provide a preliminary pharmacological characterization of the muscarinic inhibition of the Ca2+ channels in sensory neurons, with implications about agonist specificity and the interplay between signalling pathways.
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PMID:Muscarinic regulation of Ca2+ currents in rat sensory neurons: channel and receptor types, dose-response relationships and cross-talk pathways. 801 75

We have studied the role of Raf-1 in mitogenesis and cellular transformation induced by G protein-coupled receptors in NIH 3T3 cells transfected with the human m1 muscarinic receptor. We have observed that in m1-expressing NIH 3T3 cells, the cholinergic agonist carbachol induces a dose- and time-dependent shift in the electrophoretic mobility of p72Raf-1, equivalent to that observed when using phorbol esters or platelet-derived growth factor as stimulants. Phosphoamino acid analysis of slower mobility forms of p72Raf-1 revealed both phosphoserine and phosphothreonine. Carbachol potently induced c-Raf activity as judged by its in vitro phosphorylating activity using MEK as a substrate. However, induction of Raf-1 kinase activity by carbachol occurred much earlier than changes in its electrophoretic mobility. Raf-1 kinase activation followed a kinetic similar to that exhibited by an epitope-tagged ERK2 protein when coexpressed in the same cells. Conventional protein kinase C (PKC) inactivation by means of sustained phorbol ester treatment or by a new nontoxic PKC-specific inhibitor, GF 109203X, abolished p72Raf-1 mobility shift induced by carbachol or by phorbol esters. However, c-Raf and ERK2 enzymatic activity in response to carbachol was at least 50-80% PKC-independent. Furthermore, inhibition of PKC failed to affect DNA synthesis or focus formation induced by carbachol in cells expressing m1 receptors. In contrast, cotransfection of NIH 3T3 cells with the Raf-1 dominant negative mutant Raf-301 (K375W) drastically decreased the transforming ability of m1 receptors. Thus, our findings implicate Raf-1 activation in transformation by G protein-coupled receptors. In addition, our data suggest that activation of p72Raf-1 and ERK2 by G protein-coupled receptors involves PKC-independent pathways.
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PMID:Signaling through transforming G protein-coupled receptors in NIH 3T3 cells involves c-Raf activation. Evidence for a protein kinase C-independent pathway. 806 29

1. We have previously demonstrated that M2 and M3 muscarinic receptors coexist in the circular smooth muscle of canine proximal colon. Activation of receptors of the M2 subtype leads to inhibition of adenylyl cyclase activity through the GTP-binding protein, Gi, while M3 receptors are coupled to a pertussis toxin-insensitive GTP-binding protein and mediate phosphoinositide hydrolysis. 2. In the present study, the interactions between these second messenger systems were examined. Activation of either protein kinase C or adenosine 3':5'-cyclic monophosphate (cyclic AMP)-dependent protein kinase attenuated carbachol-stimulated phosphoinositide hydrolysis without affecting basal activity. Activation of both protein kinases produced greater attenuation of inositol 1,4,5-trisphosphate formation than activation of either kinase alone. 3. In contrast to its inhibitory effect on phosphoinositide hydrolysis, activation of protein kinase C had no effect on adenylyl cyclase activity. 4. Activation of protein kinase C by phorbol ester treatment resulted in the sequestration of M3 muscarinic receptors from the cell surface without effecting the M2 muscarinic receptor population. Sequestered M3 muscarinic receptors were not rapidly degraded. 5. In contrast, elevation of cellular cyclic AMP decreased the affinity of cell surface muscarinic receptors for an antagonist radioligand without affecting their density. 6. Muscarinic agonist binding was not affected by either activation of protein kinase C or elevation of cellular cyclic AMP. 7. These data support the notion of negative feedback by protein kinase C and cyclic AMP-dependent protein kinase on phosphoinositide hydrolysis. In canine colonic circular smooth muscle this negative feedback regulation of inositol phosphate generation by muscarinic receptor stimulation does not appear to involve the guanine nucleotide binding protein:receptor interaction.
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PMID:Protein kinase regulation of muscarinic receptor signalling in colonic smooth muscle. 838 29

A specific antiserum against the human m3-muscarinic receptor subtype was made by subcloning a variant region of the third intracellular loop of the m3-receptor (Ser345-Leu463) into a bacterial expression plasmid that produced a fusion protein with glutathione S-transferase. In immunoblot studies this anti-serum identified the human m3-receptor expressed in transfected Chinese hamster ovary (CHO) cells (CHO-m3 cells, 1343 fmol/mg protein) as a diffuse band at approximately 97-110 kDa. In vivo labeling of the ATP pool in CHO-m3 cells with [32P]orthophosphate followed by immunoprecipitation of solubilized m3-receptors revealed that the unstimulated receptor existed in a phosphorylated form. Incubation of CHO-m3 cells with the cholinergic agonist carbachol (1 mM) increased the phosphorylated state of the receptor dramatically, primarily at serine. The time course for agonist-dependent phosphorylation was very rapid occurring within seconds of agonist addition and was maintained for at least 30 min. The muscarinic antagonist atropine (10 microM) inhibited agonist-stimulated phosphorylation. Neither forskolin (10 microM) nor the calcium ionophore, ionomycin (1 microM), had any effect on the state of phosphorylation of the m3-receptor, eliminating a role for cAMP-dependent protein kinase and Ca2+/calmodulin-dependent protein kinase in the agonist-dependent phosphorylation of m3-receptors. 4 beta-Phorbol 12 beta-myristate 13 alpha-acetate (100 nM) did increase m3-receptor phosphorylation, an effect that was inhibited by the selective protein kinase C inhibitor RO-318220 (10 microM). However, agonist-stimulated m3-receptor phosphorylation was not inhibited by RO-318220 indicating that protein kinase C was not involved in agonist-induced m3-receptor phosphorylation. In conclusion the phosphorylation of m3-receptors, in vivo, was increased following the application of muscarinic agonist or PMA. The response to agonist was mediated via a kinase distinct from protein kinase C, protein kinase A and Ca2+/calmodulin dependent protein kinase, whereas the effect of 4 beta-phorbol 12 beta-myristate 13 alpha-acetate was mediated by protein kinase C.
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PMID:Rapid agonist-mediated phosphorylation of m3-muscarinic receptors revealed by immunoprecipitation. 848 62

Stimulation of beta2-adrenoceptors with the selective beta2 agonist procaterol caused a biphasic decrease in cell surface M2 muscarinic receptor number in human embryonic lung 299 cells when measured with the hydrophilic antagonist [3H]N-methylscopolamine. In contrast, total muscarinic receptor number, measured with the lipophilic antagonist [3H]quinuclidinylbenzilate, decreased after only 24-hr treatments with procaterol. The loss in receptor number at 24 hr was mimicked with the use of forskolin and the cAMP analogue 8-bromo-cAMP, indicating a cAMP-mediated mechanism. Northern blot analysis showed a small and transient increase in m2-receptor mRNA levels up to 2 hr but no long term (24 hr) effect. Chronic (24 hr) treatment with 8-bromo-cAMP also had no effect on m2 muscarinic receptor mRNA, whereas forskolin caused a 50% reduction in the steady state levels of m2 mRNA that could be only partially blocked by the cAMP-dependent protein kinase inhibitor H-8 and the protein kinase C inhibitor GF 109203X. Procaterol-induced down-regulation of M2 receptors was fully blocked by N-[2-(methylamino)ethyl]-5'-isoquinoline-sulfonamide and 2-[1-(3-dimethylaminopropyl)-inol-3-yl]-3-(indol-3-yl)maleimide, implicating both of these kinases in the M2 muscarinic receptor down-regulation. Conversely, the forskolin- and 8-bromo-cAMP-induced down-regulation was only partially inhibited and unaffected by these inhibitors, respectively. In control cells and those treated with procaterol for < / = 2 hr, cAMP generation was significantly inhibited by carbachol. The inhibitory effect of carbachol was, however, lost after 24-hr exposure to procaterol. This desensitization was partially reversed by preincubations with H-8 and GF 109203X. Collectively, these results suggest that transregulation of M2 muscarinic receptors by beta2-adrenoceptor stimulation can be demonstrated at the protein level in human embryonic lung 299 cells. Furthermore, a role is suggested for cAMP-dependent kinase and PKC in M2 muscarinic receptor down-regulation and their functional desensitization.
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PMID:Beta-Adrenoceptor-medicated down-regulation of M2 muscarinic receptors: role of cyclic adenosine 5'-monophosphate-dependent protein kinase and protein kinase C. 860 90

Modulation of the inwardly rectifying potassium channel (IRK1) by the m1 muscarinic receptor was studied with the whole-cell patch-clamp recording technique with the use of a mammalian expression system. After transfection with IRK1 and m1 muscarinic receptor genes, tsA cells expressed a cesium-sensitive inwardly rectifying potassium conductance that was reduced on application of the muscarinic receptor agonist carbachol. This reduction was reversible on washout of carbachol and could be completely inhibited by the muscarinic receptor antagonist atropine. Conversely, stimulation of the m2 muscarinic receptor, when coexpressed with IRK1, resulted in no change in IRK1 current amplitude. Phorbol-12, 13-dibutyrate, an activator of protein kinase c (PKC), mimicked the effect of m1 muscarinic receptor stimulation by inhibiting the IRK1 conductance. Preincubation with staurosporine or the specific PKC inhibitor calphostin C, before application of carbachol, fully prevented the inhibition of IRK1 by m1 muscarinic receptor stimulation. Administration of 8-bromo-cAMP, an activator of protein kinase A, and thapsigargin, a stimulator of intracellular calcium release, had no effect on IRK1, suggesting that these second messengers were not involved in the m1 muscarinic receptor-induced response. Therefore, the data indicate that the m1 muscarinic receptor inhibits IRK1, presumably via stimulation of PKC. As IRK1 is widely distributed throughout the central nervous system, it is possible that such an action on IRK1 underlies the inhibitory effects of muscarinic receptor stimulation on inwardly rectifying potassium conductances observed in the brain.
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PMID:Modulation of the inwardly rectifying potassium channel IRK1 by the m1 muscarinic receptor. 860 94

Phosphorylation of G-protein-linked receptors is thought to play a central role in receptor regulation and desensitization. Unlike the case of the extensively studied beta-adrenergic receptor/adenylate cyclase pathway, in which receptor-specific phosphorylation is known to be mediated by beta-adrenergic receptor kinase ( beta-ARK), the kinases responsible for phosphorylation of phospholipase C-linked receptors have yet to be identified, although a role for beta-ARK has been implicated. This study describes the purification of a novel 40-kDa receptor kinase from porcine cerebellum that is able to phosphorylate the phospholipase C-linked m3-muscarinic receptor in an agonist-dependent manner. The assay for kinase activity was based on the ability of the kinase to phosphorylate a bacterial fusion protein, Ex-m3, containing amino acids Ser345-Leu463 of the third intracellular loop of the m3-muscarinic receptor. Purification of the muscarinic receptor kinase from a high speed supernatant fraction of porcine cerebellum was achieved using the following steps: (i) 30-60% ammonium sulfate cut and successive chromatography on (ii) butyl-Sepharose (iii) Resource Q, (iv) Resource S, and (v) heparin-Sepharose. The purified protein kinase represented an approximately 18,600-fold purification and was a single polypeptide with a molecular weight of approximately 40 kDa. Based on the chromatographic mobility, molecular weight, and kinase inhibitor studies, the kinase, designated MRK, was shown to be distinct from previously characterized second messenger regulated protein kinases, beta-ARK, and other members of the G-protein-linked receptor kinase family. It therefore represents a new class of receptor kinase.
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PMID:Identification of a novel receptor kinase that phosphorylates a phospholipase C-linked muscarinic receptor. 863 12

The effects of increases in intracellular adenosine 3',5'-cyclic monophosphate (cAMP) on carbachol-induced generation of inositol phosphates (IPs) and increases in intracellular Ca2+ ([Ca2+]i) were investigated in canine cultured tracheal smooth muscle cells (TSMCs). The cAMP elevating agents, cholera toxin (CTX) and forskolin, induced concentration- and time-dependent cAMP formation with half-maximal effects (-logEC50) at concentrations of 7.6 +/- 1.3 g/ml and 4.8 +/- 0.9 M, respectively. Forskolin caused a concentration-dependent inhibition of carbachol-induced increase in [Ca2+]i with half-maximal inhibition (-logEC50) at 5.2 +/- 0.7 M. Pretreatment of TSMCs with either CTX (10 micrograms/ml, 4 h), forskolin (10-100 microM, 30 min), or dibutyryl cAMP (1 mM, 30 min) inhibited carbachol-stimulated Ca2+ mobilization and IPs accumulation. The inhibitory effects of these agents produced both depression of the maximal response and a shift to the right of the concentration-response curve of carbachol without changing the EC50 values. After treatment with forskolin for 24 h, carbachol-induced IPs accumulation and Ca2+ mobilization were close to those of control group. SQ-22536 [9-(tetrahydro-2-furanyl)-9H-purin-6-amine, 10 microM], an inhibitor of adenylate cyclase, and HA-1004 [N-(2-guanidinoethyl)-5-isoquinolinesulfonamide hydrochloride, 50 microM], an inhibitor of cAMP-dependent protein kinase (PKA), attenuated the ability of forskolin to inhibit carbachol-induced IPs accumulation. Moreover, the inactive analogue of forskolin, 1,9-dideoxy forskolin, did not inhibit these responses evoked by carbachol, suggesting that activation of cAMP/PKA was involved in these inhibitory effects of forskolin. The KD and Bmax values of the muscarinic receptor (mAChR) for [3H]-N-methyl scopolamine binding were not significantly changed by forskolin treatment for 30 min and 24 h, suggesting that the inhibitory effect of forskolin is distal to the mAChR. The locus of this inhibition was further investigated by examining the effect of forskolin treatment on AIF4(-)-stimulated IPs accumulation in canine TSMCs. The AIF4(-)-induced response was inhibited by forskolin, supporting the notion that G protein(s) are directly activated by AIF4- and uncoupled to phospholipase C by forskolin treatment. We conclude that cAMP elevating agents inhibit carbachol-stimulated generation of IPs and Ca2+ mobilization in canine cultured TSMCs. Since generation of IPs and increases in [Ca2+]i are very early events in the activation of mAChRs, attenuation of these events by cAMP elevating agents might well contribute to the inhibitory effect of cAMP on tracheal smooth muscle formation.
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PMID:Effect of cAMP elevating agents on carbachol-induced phosphoinositide hydrolysis and calcium mobilization in cultured canine tracheal smooth muscle cells. 873 64

1. In this study we have investigated delta and mu opioid receptor-mediated elevation of intracellular Ca2+ concentration ([Ca2+]i) in the human neuroblastoma cell line, SH-SY5Y. 2. The Ca(2+)-sensitive dye, fura-2, was used to measure [Ca2+]i in confluent monolayers of SH-SY5Y cells. Neither the delta-opioid agonist, DPDPE ([D-Pen2,5]-enkephalin) nor the mu-opioid agonist, DAMGO (Tyr-D-Ala-Gly-N-Me-Phe-Gly-ol enkephalin) elevated [Ca2+]i when applied alone. However, when either DPDPE or DAMGO was applied in the presence of the cholinoceptor agonist, carbachol (100 nM-1 mM) they evoked an elevation of [Ca2+]i above that caused by carbachol alone. 3. In the presence of 1 microM or 100 microM carbachol, DPDPE elevated [Ca2+]i with an EC50 of 10 nM. The elevation of [Ca2+]i was independent of the concentration of carbachol. The EC50 for DAMGO elevating [Ca2+]i in the presence of 1 microM and 100 microM carbachol was 270 nM and 145 nM respectively. 4. The delta-receptor antagonist, naltrindole (30 nM), blocked the elevations of [Ca2+]i by DPDPE (100 nM) without affecting those caused by DAMGO while the mu-receptor antagonist, CTAP (D-Phe-Cys-Tyr-D-Trp-Arg-Pen-Thr-NH2) (100 nM-1 microM) blocked the elevations of [Ca2+]i caused by DAMGO (1 microM) without affecting those caused by DPDPE. 5. Block of carbachol activation of muscarinic receptors with atropine (10 microM) abolished the elevation of [Ca2+]i by the opioids. The nicotinic receptor antagonist, mecamylamine (10 microM), did not affect the elevations of [Ca2+]i caused by opioids in the presence of carbachol. 6. Muscarinic receptor activation, not a rise in [Ca2+]i, was required to reveal the opioid response. The Ca2+ channel activator, maitotoxin (3 ng ml-1), also elevated [Ca2+]i but subsequent application of opioid in the presence of maitotoxin caused no further changes in [Ca2+]i. 7. The elevations of [Ca2+]i by DPDPE and DAMGO were abolished by pretreatment of the cells with pertussis toxin (200 ng ml-1, 16 h). This treatment did not significantly affect the response of the cells to carbachol. 8. The opioids appeared to elevate [Ca2+]i by mobilizing Ca2+ from intracellular stores. Both DPDPE and DAMGO continued to elevate [Ca2+]i when applied in nominally Ca(2+)-free external buffer or when applied in a buffer containing a cocktail of Ca2+ entry inhibitors. Thapsigargin (100 nM), an agent which discharges intracellular Ca2+ stores, also blocked the opioid elevations of [Ca2+]i. 9. delta and mu Opioids did not appear to mobilize intracellular Ca2+ by modulating the activity of protein kinases. The application of H-89 (10 microM), an inhibitor of protein kinase A, H-7 (100 microM), an inhibitor of protein kinase C, protein kinase A and cyclic GMP-dependent protein kinase, or Bis I, an inhibitor of protein kinase C, did not alter the opioid mobilization of [Ca2+]i. 10. Thus, in SH-SY5Y cells, opioids can mobilize Ca2+ from intracellular stores but they require ongoing muscarinic receptor activation. Opioids do not elevate [Ca2+]i when applied alone.
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PMID:delta- and mu-opioid receptor mobilization of intracellular calcium in SH-SY5Y human neuroblastoma cells. 878 87

1. The present study investigated the second messenger pathways that may mediate muscarinic receptor autoinhibition of acetylcholine release in mouse atria. The stimulation-induced (S-I) outflow of radioactivity from mouse isolated atria incubated with [3H]-choline was Ca(2+)-dependent and tetrodotoxin-sensitive and was used as an index of neuronal acetylcholine release. 2. The cell permeable analogue of cyclic AMP, 8-bromocyclic AMP (1 x 10(-3)M) enhanced the S-I outflow of radioactivity (33%), lower concentrations having no effect. Similarly, the adenylate cyclase activator forskolin (1 x 10(-5)M) had a small facilitatory effect on acetylcholine release. On the other hand the phosphodiesterase inhibitor 3-isobutylmethylxanthine (1 x 10(-4)M) had no effect on the S-I outflow of radioactivity. Together these results suggest that the adenylate cyclase/cyclic AMP system does not have an appreciable role in the modulation of acetylcholine release. 3. The protein kinase C activator phorbol dibutyrate (0.1-3 x 10(-6)M) enhanced the S-I acetylcholine release (maximally by 45%). The effects of phorbol dibutyrate were attenuated by the protein kinase inhibitor staurosporine (1 x 10(-7)M), which by itself had no effect on the S-I outflow of radioactivity. This latter result suggests that there is no tonic activation of protein kinase C during acetylcholine release. 4. Atropine (1 x 10(-7)M) markedly enhanced (232%) the S-I outflow of radioactivity, presumably by preventing feedback inhibition on acetylcholine release through prejunctional muscarinic receptors. This effect is unlikely to involve adenylate cyclase or protein kinase C since it was far greater than the effects of activation of either system with forskolin and phorbol dibutyrate, respectively. Furthermore, the facilitatory effect of atropine was not attenuated by staurosporine, which although a protein kinase C inhibitor, is also an effective inhibitor of cyclic AMP dependent protein kinase (protein kinase A).
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PMID:Muscarinic autoinhibition of acetylcholine release in mouse atria is not transduced through cyclic AMP or protein kinase C. 884 68


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