Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our recent study demonstrated that by activating CCK-A receptors, CCK-8 excites substantia nigra (SN) dopaminergic (DA) neurons via increasing a non-selective cationic conductance. In the present study, we further studied the molecular mechanism by which CCK-8 induces cationic currents in SN DA neurons. CCK-8-evoked inward currents were inhibited by the intracellular perfusion of GDP-beta-S (1 mM). In DA neurons internally perfused with GTP-gamma-S (0.5 mM), the inward currents produced by CCK-8 became irreversible. Pretreating DA neurons with 500 ng/ml pertussis toxin (PTX) did not significantly affect the ability of CCK-8 to induce cationic currents. Intracellular application of heparin (2 mg/ml), an inositol 1,4,5-trisphosphate (InsP3) receptor antagonist, and buffering intracellular calcium with the Ca(2+)-chelator BAPTA (10 mM) suppressed CCK-8-evoked cationic currents. Dialyzing DA neurons with protein kinase C (PKC) inhibitors, staurosporine and PKC(19-31), failed to prevent CCK-8 from generating cationic currents. It is concluded that PTX-insensitive G-proteins mediate CCK-8-induced enhancement of cationic conductance of SN DA neurons. The coupling mechanism via G-proteins is likely to involve the generation of InsP3, and subsequent InsP3-evoked Ca2+ release from the intracellular store results in activating the non-selective cationic conductance.
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PMID:CCK-8-evoked cationic currents in substantia nigra dopaminergic neurons are mediated by InsP3-induced Ca2+ release. 752 97

Synthetic thrombin receptor peptides (TRPs), comprising the first 6-14 amino acids of the new N-terminus tethered ligand of the thrombin receptor that is generated by thrombin's proteolytic activity, were reported to activate platelets equally with thrombin itself and are considered to be full agonists [Vu et al. (1991) Cell 64, 1057-1068]. Using aspirin plus ADP-scavengers or the ADP-receptor antagonist adenosine 5'-[alpha-thio]triphosphate to prevent the secondary effects of the potent agonists that are normally released from stimulated platelets (i.e. ADP and thromboxane A2), we assessed the direct actions of thrombin and TRPs (i.e. TRP42-47 and TRP42-55). Compared with thrombin, under these conditions, TRPs: (1) failed to aggregate platelets completely; (2) produced less activation of glycoprotein (GP)IIb-IIIa; (3) did not cause association of GPIIb and pp60c-src with the cytoskeleton; and (4) caused less alpha-granule secretion, phosphorylation of cytoplasmic phospholipase A2, arachidonic acid release and phosphatidyl inositol (PtdOH) production. Furthermore, TRPs induced transient increases in protein phosphorylation mediated by protein kinase C and protein tyrosine phosphorylation, whereas these same responses to thrombin were greater and more sustained. Hirudin added after thrombin accelerated protein dephosphorylation, thereby mimicking the rate of spontaneous dephosphorylation seen after stimulation by TRPs. Platelets totally desensitized to very high concentrations of TRPs, by prior exposure to maximally effective concentrations of the peptides, remained responsive to alpha- and gamma-thrombins. Thrombin-stimulated PtdOH production in permeabilized platelets desensitized to TRPs was abolished by guanosine 5'-[beta-thio]diphosphate (GDP[beta S]), as in normal platelets. These results are discussed in terms of the allosteric Ternary Complex Model for G-protein linked receptors [Samama et al. (1993) J. Biol. Chem. 268, 4625-4636]. We conclude that: (1) TRPs are partial agonists for the thrombin receptor and produce incomplete receptor desensitization in keeping with their lower intrinsic activity; (2) thrombin's effects in platelets, even in TRP-desensitized platelets, are entirely mediated through the recently cloned G-protein linked receptor, and (3) thrombin's ability to produce sustained signals, compared with TRPs, may require the continued progressive proteolytic activation of naive thrombin receptors.
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PMID:Thrombin-receptor agonist peptides, in contrast to thrombin itself, are not full agonists for activation and signal transduction in human platelets in the absence of platelet-derived secondary mediators. 752 41

Local alterations in the hemodynamic environment regulate endothelial cell function, but the signal-transduction mechanisms involved in this process remain unclear. Because mitogen-activated protein (MAP) kinases have been shown to be activated by physical forces, we measured the phosphorylation and enzyme activity of MAP kinase to identify the signal events involved in the endothelial cell response to fluid shear stress. Flow at physiological shear stress (3.5 to 117 dynes/cm2) activated 42-kD and 44-kD MAP kinases present in cultured bovine aortic endothelial cells, with maximal effect at 12 dynes/cm2. Activation of a G protein was necessary, as demonstrated by complete inhibition by the nonhydrolyzable GDP analog GDP-beta S. Activation of protein kinase C (PKC) was required, as shown by inhibiting PKC with staurosporine or downregulating PKC with phorbol 12,13-dibutyrate. Both Ca(2+)-dependent and -independent PKC activity, measured by translocation and substrate phosphorylation, increased in response to flow. However, MAP kinase activation was not dependent on Ca2+ mobilization, since Ca2+ chelation had no inhibitory effect. On the basis of these findings, it is proposed that flow activates two signal-transduction pathways in endothelial cells. One pathway is Ca2+ dependent and involves activation of phospholipase C and increases in intracellular Ca2+. A new pathway, described in the present study, is Ca2+ independent and involves a G protein and increases in PKC and MAP kinase activity.
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PMID:Fluid shear stress stimulates mitogen-activated protein kinase in endothelial cells. 755 40

1. The mouse AtT-20/D16-16 anterior pituitary tumour cell line was used as a model system for the study of the effects of mastoparan upon the late stages of the adrenocorticotrophin (ACTH) secretory pathway. 2. Mastoparan (10(-8)-10(-5) M), an activator of heterotrimeric guanosine 5'-triphosphate binding proteins (G-proteins), stimulated ACTH secretion from electrically-permeabilized AtT-20 cells in a concentration-dependent manner in the effective absence of calcium ions with a threshold of 10(-6) M. Guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S) (10(-8)-10(-4) M) also stimulated ACTH secretion from electrically-permeabilized AtT-20 cells in a concentration-dependent manner in the effective absence of calcium ions with a threshold of 10(-6) M. This GTP-gamma-S-evoked secretion is consistent with previous studies which demonstrated that a G-protein, termed GE, mediates calcium evoked ACTH secretion from AtT-20 cells. GTP-gamma-S-evoked secretion however was not as great as that obtained in response to mastoparan. 3. Both mastoparan (10(-5) M) and GTP-gamma-S (10(-4) M) stimulated ACTH secretion from electrically-permeabilized AtT20 cells in a time-dependent manner. A time of 30 min was adopted as the standard incubation period for the study of both mastoparan and GTP-gamma-S-stimulated ACTH secretion from permeabilized AtT-20 cells. 4. Mastoparan (10(-8)-10(-5) M) stimulated ACTH secretion from permeabilized AtT-20 cells to the same extent in the presence and absence of the protein kinase C (PKC) inhibitor, chelerythrine chloride (10(-5) M). 5. Mastoparan (10-8 10-5 M)-stimulated ACTH secretion from permeabilized AtT-20 cells was significantly reduced in the presence of guanosine 5'-O-(2-thiodiphosphate) (GDP-beta-S, 10-4 M).6. The mastoparan analogue, Mas-7 (10-8-10-5 M) stimulated ACTH secretion from permeabilized AtT-20 cells to a greater extent than mastoparan (10-8 10-5 M) however, the mastoparan analogue Mas-17 (10-8- 10-5 M) had no effect upon ACTH secretion from permeabilized AtT-20 cells.7. Mastoparan (10-8-10-5 M) stimulated ACTH secretion from permeabilized AtT-20 cells in the presence and absence of ATP, normally present in the standard permeabilization medium at a concentration of 5 mM. Mastoparan (10-8- 10-5 M)-stimulated ACTH secretion as well as control secretion was reduced when ATP was omitted.8. The results of the present study demonstrate that mastoparan stimulated ACTH secretion from permeabilized AtT-20 cells and displayed characteristics consistent with calcium ion- and GTP-y-gamma-S-stimulated ACTH secretion from permeabilized AtT-20 cells. This suggests that in permeabilized AtT-20 cells, mastoparan directly activates GE and that this G-protein may be a heterotrimeric G-protein. This study also suggests mastoparan may be a useful alternative to GTP-gamma-S as a means of directly activating GE.
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PMID:Effects of mastoparan upon the late stages of the ACTH secretory pathway of AtT-20 cells. 758 93

We studied the involvement of protein kinase C (PKC) and a small GTP-binding protein (G-protein), rho, in receptor-mediated Ca2+ sensitization of the contractile apparatus of smooth muscle of guinea pig vas deferens. In beta-escin-permeabilized smooth muscle strips, norepinephrine (NE) in the presence of GTP caused further contraction of the preparations at a constant Ca2+ level (Ca2+ sensitization). Prazosin and GDP beta S, a nonhydrolyzable GDP analogue, inhibited NE-induced Ca2+ sensitization, indicating an alpha-1 adrenoceptor/G-protein mediated response. GTP alone (> 10 microM) and GTP gamma S, a non-hydrolyzable GTP analogue, also induced Ca2+ sensitization. Pretreatment of preparations with C3 exoenzyme of Clostridium botulinum, which is known to ADP-ribosylate rho family proteins, with NAD resulted in complete inhibition of NE- and GTP (GTP gamma S)-induced Ca2+ sensitization. AIF4-, which activates heterotrimeric G-, but not small G-protein also induced Ca2+ sensitization. Interestingly, AIF4(-)-induced Ca2+ sensitization was inhibited by not only GDP beta S but also C3-treatment, suggesting that activation of heterotrimeric GTP-binding protein precedes activation of rho protein. On the other hand, phorbol 12,13-dibutyrate, like NE, also induced Ca2+ sensitization. The sensitization was inhibited by PKC(19-31), a PKC inhibitor peptide. However, PKC(19-31) did not have any effect on NE- or AIF4(-)-induced Ca2+ sensitization.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Involvement of heterotrimeric GTP-binding protein and rho protein, but not protein kinase C, in agonist-induced Ca2+ sensitization of skinned muscle of guinea pig vas deferens. 761 45

We have characterized the regulation of the endogenous Na+/H+ exchanger in Xenopus laevis oocytes by G proteins and protein kinases by measuring the ethylisopropylamiloride-sensitive Li+ uptake. Injection of oocytes with the stable GTP analog GTP gamma S stimulated Li+ uptake up to almost 4-fold, an effect blocked by coinjection with the GDP analog, guanyl-5'-yl thiophosphate. Injection into oocytes of beta gamma subunits of the heterotrimeric G protein transducin enhanced Li+ uptake by about 3-fold. This stimulation was blocked by transducin alpha subunits, which by themselves did not influence Li+ uptake. Using various activators and inhibitors of protein kinases, it is demonstrated that the X. laevis oocyte Na+/H+ antiporter can be stimulated by activation of both protein kinase A and C. Stimulation of Na+/H+ exchanger activity by GTP gamma S but not that induced by transducin beta gamma subunits was blocked by the protein kinase A inhibitor H-89. On the other hand, transducin beta gamma subunit-stimulated activity was prevented by the protein kinase C inhibitor, calphostin C. The non-selective protein kinase inhibitor H-7 blocked both GTP gamma S- and transducin beta gamma subunit-stimulated Na+/H+ exchanger activity. The results suggest that the Na+/H+ exchanger of X. laevis oocytes can be activated by G proteins and that this activation is not direct but mediated by protein kinase A- and/or protein kinase C-dependent pathways.
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PMID:G protein regulation of the Na+/H+ antiporter in Xenopus laevis oocytes. Involvement of protein kinases A and C. 762 94

The effect of ATP on cultured striatal neurons was examined by whole cell voltage clamp recordings. ATP produced outwardly rectifying currents that reversed near the expected equilibrium potential for the potassium ion and the currents were blocked by intracellular Cs+. Purinergic receptor agonists such as ADP, AMP adenosine, and 2-methylthio ATP (2-MeSATP) also evoked similar outward currents. The order of their potencies was ATP >> 2-MeSATP > or = ADP > adenosine > AMP, corresponding to a P2 purinergic receptor. ATP-evoked currents were blocked by a specific protein kinase C (PKC) inhibitor, GF109203X. In addition, the intracellular perfusion of a G-protein inactivator, GDP beta S abolished ATP-induced currents, whereas pertussis toxin (PTX) had no effect on the currents. These results suggest that ATP activates a potassium channel in striatal neurons, which is regulated by protein kinase C (PKC) activation through a P2 purinergic receptor linked to PTX-insensitive G protein.
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PMID:ATP-evoked potassium currents in rat striatal neurons are mediated by a P2 purinergic receptor. 764 29

The mechanisms of alpha 1-adrenoceptor agonist-mediated sensitization of the contractile apparatus of smooth muscle to Ca2+ were studied in beta-escin-permeabilized thoracic arterial smooth muscle of rabbit. Addition of norepinephrine (10 microM) plus guanosine 5'-triphosphate (GTP, 50 microM) significantly enhanced Ca2+ sensitivity as compared with the addition of 0.3 microM Ca2+ alone (pCa6.5). In beta-escin-skinned smooth muscle of chloroethylclonidine-treated tissues, the enhancement of Ca(2+)-contraction produced by norepinephrine or clonidine was completely inhibited by guanosine 5'-O-(beta-thiodiphosphate) (GDP beta-S, 1 mM). In addition, Clostridium botulinum C3, which inactivates low molecular weight GTP-binding protein families, abolished norepinephrine- or clonidine-induced Ca(2+)-sensitization, but did not affect clonidine-induced translocation of protein kinase C to the membrane. The norepinephrine-enhanced Ca2+ sensitivity was partially reversed by a pretreatment with a selective myosin light chain kinase inhibitor (8R*, 9S*, 11S*)-(-)-9-hydroxy-9-methoxycarbonyl-8-methyl-14-n- propoxy-2,3,9,10-tetrahydro-8,11-epoxy,1H,8H,11H-2,7b,11a- triazadibenzo[a,g]cycloocta[cde]trinden-1-one (KT5926, 500 nM), but those of clonidine and in the chloroethylclonidine-treated tissues norepinephrine were not. These results suggest that Ca(2+)-sensitization produced by the activation of the alpha 1-adrenoceptor subtypes is linked via a low molecular weight GTP-binding protein (Rho), and the regulations of phosphorylation in contractile elements.
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PMID:Involvement of botulinum C3-sensitive GTP-binding proteins in alpha 1-adrenoceptor subtypes mediating Ca(2+)-sensitization. 766 21

Numerous transmitter receptors are linked via GTP-binding proteins (G proteins) to membrane phosphoinositide metabolism by phospholipase C (PLC) and generation of second messengers such as activated protein kinase C (PKC), inositol trisphosphate (IP3) and/or elevations in intracellular calcium. In many cases, these same receptors also inhibit a resting ('leak') potassium current (IK(L)), thereby depolarizing neurons. It is unclear if activation of this PLC pathway mediates inhibition of IK(L) by neurotransmitter receptors. Therefore, we tested the contribution of this pathway to the TRH-induced inhibition of IK(L) in rat hypoglossal motoneurons (HMs) using conventional intracellular recording in brainstem slices. When HMs were recorded with electrodes containing 3 M KCl or 30 mM GTP (in KCl), TRH induced a depolarization that recovered quickly (within 8-10 min) and could be repeated with only modest tachyphylaxis (< 20%). However, with electrodes containing the non-hydrolyzable G protein activator, GTP gamma S (10 mM), the TRH-induced depolarization was long lasting (up to 1 h); with electrodes containing the G protein inhibitor, GDP beta S (20 mM) the tachyphylaxis with repeated TRH application was exaggerated (approximately 60%). Activation of PKC by phorbol dibutyrate (10 microM in perfusate) neither mimicked nor occluded the effects of TRH. There were no effects on membrane potential, input resistance (RN) or the response to TRH in HMs during long recordings with electrodes containing high concentrations of IP3 (60 mM).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of thyrotropin-releasing hormone on rat motoneurons are mediated by G proteins. 770 7

1. Sensitization of the contractile system in response to combinations of excitatory agonists acetylcholine (ACh), methacholine, histamine and neurokinin A (NKA) was investigated in colonic circular smooth muscle of dog, NKA (1 nM) potentiated the contractile response to 1 microM ACh, but did not increase the fura-2 fluorescence ratio (R340/380). Contraction in response to low concentrations of either methacholine or histamine was potentiated significantly by 0.1 microM 4-phorbol 12,13-dibutyrate (PDBu), suggesting that activation of protein kinase C can potentiate contraction at threshold concentrations of agonists. 2. Variability in the sensitivity of the contractile system to Ca2+ was demonstrated over a range of agonist concentrations. KCl, ACh, histamine and NKA each produced a concentration-dependent increase in the amplitude of phasic contractions and R340/380. However, ACh, histamine and NKA each induced maximal increases in R340/380 at concentrations less than that needed to induce maximum force. 3. In depolarized muscles, NKA (50 nM) and PDBu (1 microM) each increased the magnitude of tonic contraction with no change or a decrease in both R340/380 and myosin light chain phosphorylation. In alpha-toxin-permeabilized fibres, 0.1 microM PDBu and 1 microM NKA shifted the Ca(2+)-force response to the left. Ca(2+)-induced contractions were also potentiated by 100 microM GTP-gamma-S or 1 microM NKA plus 10 microM GTP. Potentiation of contraction by NKA and GTP was antagonized by 10 microM GDP-beta-S. 4. The results suggest that endogenous agonists acting via G-proteins sensitize the contractile element of colonic smooth muscle in part by activation of protein kinase C. In some cases, sensitization may be secondary to increased myosin phosphorylation (ACh), but in other cases it appears to be independent of increased myosin light chain phosphorylation (NKA and PDBu). Therefore regulatory mechanisms in addition to myosin phosphorylation contribute to the apparent sensitization of the contractile system to Ca2+.
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PMID:Sensitization of the contractile system of canine colonic smooth muscle by agonists and phorbol ester. 770 35


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