EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kaposi's sarcoma-associated herpesvirus (KSHV)/human herpesvirus 8, which is consistently present in tissues of patients with Kaposi's sarcoma and primary effusion lymphomas, contains a gene that encodes a G protein-coupled receptor (KSHV-GPCR). We recently showed that KSHV-GPCR exhibits constitutive signaling via activation of phosphoinositide-specific phospholipase C and stimulates cell proliferation and transformation. In this study, we determined whether normal cellular mechanisms could inhibit constitutive signaling by KSHV-GPCR and thereby KSHV-GPCR-stimulated proliferation. We show that coexpression of GPCR-specific kinases (GRKs) and activation of protein kinase C inhibit constitutive signaling by KSHV-GPCR in COS-1 monkey kidney cells and in mouse NIH 3T3 cells. Moreover, GRK-5 but not GRK-2 inhibits KSHV-GPCR-stimulated proliferation of rodent fibroblasts. These data provide evidence that cell regulatory pathways of receptor desensitization may be therapeutic targets in human diseases involving constitutively active receptors.
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PMID:Inhibition of constitutive signaling of Kaposi's sarcoma-associated herpesvirus G protein-coupled receptor by protein kinases in mammalian cells in culture. 948 Sep 90

Using primary cultures of neonatal rat ventricular myocytes and isolated adult rat hearts as models, we have characterized extensively the regulation of MAPKs in the heart. The ERKs are activated primarily by GPCR agonists acting through PKC. These agonists can also activate the JNKs although the mechanism is unclear. Cellular stresses stimulate strong activation of the JNKs, but also cause some stimulation of ERKs. Activation of p38-MAPK has so far only been demonstrated in intact adult hearts subjected to stresses and probably leads to activation of MAPKAPK2. Both cellular stresses and GPCR agonists induce phosphorylation of c-Jun, but only the latter causes upregulation of c-Jun protein.
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PMID:Regulation of mitogen-activated protein kinase cascades in the heart. 976 48

Desensitization of G-protein-coupled receptors may involve phosphorylation of serine and threonine residues. The leukotriene B(4) (LTB(4)) receptor (BLT1) contains 14 intracellular serines and threonines, 8 of which are part of consensus target sequences for protein kinase C (PKC) or casein kinase 2. In this study, we investigated the importance of PKC and GPCR-specific kinase (GRK) phosphorylation in BLT1 desensitization. Pretreatment of BLT1-transfected COS-7 cells with PKC activators caused a decrease of LTB(4)-induced inositol phosphate (IP) accumulation. This reduction was prevented with the PKC inhibitor, staurosporine, and not observed in cells expressing a BLT1 deletion mutant (G291stop) lacking the cytoplasmic tail. Moreover LTB(4)-induced IP accumulation was significantly inhibited by overexpression of GRK2, GRK5, and especially GRK6, in cells expressing wild type BLT1 but not in those expressing G291stop. GRK6-mediated desensitization correlated with increased phosphorylation of BLT1. The G319stop truncated BLT1 mutant displayed functional characteristics comparable with wild type BLT1 in terms of desensitization by GRK6, but not by PKC. Substitution of Thr(308) within a putative casein kinase 2 site to proline or alanine in the full-length BLT1 receptor prevented most of GRK6-mediated inhibition of LTB(4)-induced IP production but only partially affected LTB(4)-induced BLT1 phosphorylation. Our findings thus suggest that Thr(308) is a major residue involved in GRK6-mediated desensitization of BLT1 signaling.
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PMID:Threonine 308 within a putative casein kinase 2 site of the cytoplasmic tail of leukotriene B(4) receptor (BLT1) is crucial for ligand-induced, G-protein-coupled receptor-specific kinase 6-mediated desensitization. 1207 28

The small GTPases Ras or Rap1 were suggested to mediate the stimulatory effect of some G protein-coupled receptors on ERK activity in neuronal cells. Accordingly, we reported here that pituitary adenylate cyclase-activating polypeptide (PACAP), whose G protein-coupled receptor triggers neuronal differentiation of the PC12 cell line via ERK1/2 activation, transiently activated Ras and induced the sustained GTP loading of Rap1. Ras mediated peak stimulation of ERK by PACAP, whereas Rap1 was necessary for the sustained activation phase. However, PACAP-induced GTP-loading of Rap1 was not sufficient to account for ERK activation by PACAP because 1) PACAP-elicited Rap1 GTP-loading depended only on phospholipase C, whereas maximal stimulation of ERK by PACAP also required the activity of protein kinase A (PKA), protein kinase C (PKC), and calcium-dependent signaling; and 2) constitutively active mutants of Rap1, Rap1A-V12, and Rap1B-V12 only minimally stimulated the ERK pathway compared with Ras-V12. The effect of Rap1A-V12 was dramatically potentiated by the concurrent activation of PKC, the cAMP pathway, and Ras, and this potentiation was blocked by dominant-negative mutants of Ras and Raf. Thus, this set of data indicated that GPCR-elicited GTP loading of Rap1 was not sufficient to stimulate efficiently ERK in PC12 cells and required the permissive co-stimulation of PKA, PKC, or Ras.
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PMID:Stimulation of the ERK pathway by GTP-loaded Rap1 requires the concomitant activation of Ras, protein kinase C, and protein kinase A in neuronal cells. 1247 65

P2X1 receptors for ATP are ligand-gated cation channels, which mediate smooth muscle contraction, contribute to blood clotting and are co-expressed with a range of GPCRs (G-protein-coupled receptors). Stimulation of Galpha(q)-coupled mGluR1alpha (metabotropic glutamate receptor 1alpha), P2Y1 or P2Y2 receptors co-expressed with P2X(1) receptors in Xenopus oocytes evoked calcium-activated chloride currents (I(ClCa)) and potentiated subsequent P2X1-receptor-mediated currents by up to 250%. The mGluR1alpha-receptor-mediated effects were blocked by the phospholipase C inhibitor U-73122. Potentiation was mimicked by treatment with the phor-bol ester PMA. P2X receptors have a conserved intracellular PKC (protein kinase C) site; however, GPCR- and PMA-mediated potentiation was still observed with point mutants in which this site was disrupted. Similarly, the potentiation by GPCRs or PMA was unaffected by chelating the intracellular calcium rise with BAPTA/AM [bis(o-aminophenoxy)ethane-N,N,N',N'-tetra-acetic acid tetrakis-(acetoxymethyl ester)] or the PKC inhibitors Ro-32-0432 and bisindolylmaleimide I, suggesting that the regulation does not involve a calcium-sensitive form of PKC. However, both GPCR and PMA potentiation were blocked by the kinase inhibitor staurosporine. Potentiation by phorbol esters was recorded in HEK-293 cells expressing P2X1 receptors, and radiolabelling of phosphorylated proteins in these cells demonstrated that P2X1 receptors are basally phosphorylated and that this level of phosphorylation is unaffected by phorbol ester treatment. This demonstrates that P2X1 regulation does not result directly from phosphorylation of the channel, but more likely by a staurosporine-sensitive phosphorylation of an accessory protein in the P2X1 receptor complex and suggests that in vivo fine-tuning of P2X1 receptors by GPCRs may contribute to cardiovascular control and haemostasis.
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PMID:G-protein-coupled receptor regulation of P2X1 receptors does not involve direct channel phosphorylation. 1514 37

HHV-8-GPCR is a chemokine-like receptor encoded by KSHV, the etiologic agent of KS. HHV-8-GPCR is constitutively active. Although it is homologous to mammalian CXCR2, it binds CXC and CC chemokines. Structure-function analysis showed that chemokines bind primarily to the amino terminus whereas signaling occurs in the absence of: the amino terminus, which is, therefore, not a tethered agonist. In in vitro systems, HHV-8-GPCR signals via multiple transduction pathways including, activation of phospholipase C and PKC, inhibition of adenylyl cyclase, activation of nuclear factor-kappaB; activation PI 3-kinase, p42/44 MAPK and Akt/PKB, and activation of JNK/SAPK, p38 MAPK and RAFTK. HHV-8-GPCR is important in the HHV-8 life cycle because HHV-8-GPCR-deficient viruses do not replicate in response to chemokines and exhibit, less efficient reactivation from latency. Although the role of HHV-8-GPCR in the pathogenesis of KS has not been defined, expression of HHV-8-GPCR resulted in the development of angioproliferative, KS-like tumors in transgenic mice. As endothelial cells may be targets of HHV-8 infection, HHV-8-GPCR has been studied in endothelial cells in vitro in which it affects cell adhesion and migration, increases cell survival, and stimulates secretion of proinflammatory cytokines and proangiogenic factors. Based on these findings and the observation that HHV-8-GPCR is expressed in only a few endothelial- like "spindle cells" within KS lesions, we propose that HHV-8-GPCR is involved in KS pathogenesis by stimulating secretion of proinflammatory/proangiogenic factors that act in a paracrine fashion to cause tumorigenesis.
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PMID:Insights into the viral G protein-coupled receptor encoded by human herpesvirus type 8 (HHV-8). 1520 3

The obligatory heterodimerization of the GABAB receptor (GBR) raises fundamental questions about molecular mechanisms controlling its signaling efficacy. Here, we show that NEM sensitive fusion (NSF) protein interacts directly with the GBR heterodimer both in rat brain synaptosomes and in CHO cells, forming a ternary complex that can be regulated by agonist stimulation. Inhibition of NSF binding with a peptide derived from GBR2 (TAT-Pep-27) did not affect basal signaling activity but almost completely abolished agonist-promoted GBR desensitization in both CHO cells and hippocampal slices. Taken with the role of PKC in the desensitization process, our observation that TAT-Pep-27 prevented both agonist-promoted recruitment of PKC and receptor phosphorylation suggests that NSF is a priming factor required for GBR desensitization. Given that GBR desensitization does not involve receptor internalization, the NSF/PKC coordinated action revealed herein suggests that NSF can regulate GPCR signalling efficacy independently of its role in membrane trafficking. The functional interaction between three bona fide regulators of neurotransmitter release, such as GBR, NSF and PKC, could shed new light on the modulation of presynaptic GBR action.
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PMID:Coordinated action of NSF and PKC regulates GABAB receptor signaling efficacy. 1672 10

Regulators of G protein signaling (RGSs) are inducibly expressed in response to various stimuli and the up-regulation of RGSs leads to significant decreases in GPCR responsiveness. Isoproterenol, an adrenergic receptor agonist, stimulated RGS2 mRNA in C6 rat astrocytoma cells. The up-regulation of RGS2 mRNA was abrogated by genistein, a protein tyrosine kinase inhibitor (PTK), and by broad-spectrum protein kinase C (PKC) inhibitors (staurosporine and GF109203X). alpha-Adrenergic antagonist (prazocin), beta-adrenergic antagonist (prazocin), and pertussis toxin only partially blocked the RGS2 up-regulation, suggesting that the RGS2 up-regulation is concomitantly mediated by Galphai, Galphas, and Galphaq. It is interesting to note that SB203580, a potent p38 mitogen-activated protein kinase (MAPK) inhibitor, completely inhibited the isoproterenol-mediated RGS2 expression. In addition, isoproterenol also markedly stimulated RGS2 mRNA in rat primary astrocytes, which were sensitive to SB203580 and staurosporine. Therefore, our data suggest that adrenergic receptor-mediated signaling (induced by isoproterenol) may be involved in the regulation of RGS2 expression in astrocytes via activating PTK, PKC, and p38 MAPK.
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PMID:Mechanism of isoproterenol-induced RGS2 up-regulation in astrocytes. 1693 53

Effects of hyaluronic acid (HA) on allergic inflammation were investigated. HA exerted negative effects on beta-hexoaminidase secretion and histamine release in antigen-stimulated rat basophilic leukemia (RBL2H3) cells. HA inhibited interaction between IgE and FcepsilonRI and between FcepsilonRI and PKCdelta. HA inhibited CD44 interaction with PKCalpha, indicating that HA targets CD44. PKCalpha and -delta were responsible for increased Rac1 activity and expression of p47(phox), p67(phox). HA inhibited phosphorylation of PKCalpha and -delta. Rac1 was responsible for increased ROS, and NADPH oxidase was the main source for ROS. The inhibition of PKC prevented antigen from increasing phosphorylation of ERK and p38 MAPK. ERK, p38 MAPK, and ROS, were responsible for secretion of beta-hexosaminidase, histamine release, and induction of chemokines. HA suppressed induction of chemokines, such as MIP-2 and Sprr-2a. CD44 mediated effect of antigen on phosphorylation of ERK, p38MAPK, ROS production, secretion of beta-hexosaminidase, and histamine release. GPCR did not mediate allergic function of antigen or affect anti-allergic function of HA. In vivo anti-allergic effect of HA was investigated using Nc/Nga mice model of DNFB-induced atopic dermatitis. HA reduced skin lesions in Nc/Nga mice treated with DNFB, decreased expression levels of MIP-2, Sprr-2a, and serum IgE level. In conclusion, hyaluronic acid exerts negative effect on allergic inflammation by targeting CD44 and inhibiting FcepsilonRI signaling.
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PMID:Hyaluronic acid targets CD44 and inhibits FcepsilonRI signaling involving PKCdelta, Rac1, ROS, and MAPK to exert anti-allergic effect. 1828 79

Galpha(q) protein-coupled receptor (GPCR) signaling pathway, which includes diacylglycerol (DAG) and protein kinase C (PKC), plays a critical role in cardiac hypertrophy. DAG kinase (DGK) catalyzes DAG phosphorylation and controls cellular DAG levels, thus acting as a regulator of GPCR signaling. It has been reported that DGKepsilon acts specifically on DAG produced by inositol cycling. In this study, we examined whether DGKepsilon prevents cardiac hypertrophy and progression to heart failure under chronic pressure overload. We generated transgenic mice with cardiac-specific overexpression of DGKepsilon (DGKepsilon-TG) using an alpha-myosin heavy chain promoter. There were no differences in cardiac morphology and function between wild-type (WT) and DGKepsilon-TG mice at the basal condition. Either continuous phenylephrine infusion or thoracic transverse aortic constriction (TAC) was performed in WT and DGKepsilon-TG mice. Increases in heart weight after phenylephrine infusion and TAC were abolished in DGKepsilon-TG mice compared with WT mice. Cardiac dysfunction after TAC was prevented in DGKepsilon-TG mice, and the survival rate after TAC was higher in DGKepsilon-TG mice than in WT mice. Phenylephrine- and TAC-induced DAG accumulation, the translocation of PKC isoforms, and the induction of fetal genes were blocked in DGKepsilon-TG mouse hearts. The upregulation of transient receptor potential channel (TRPC)-6 expression after TAC was attenuated in DGKepsilon-TG mice. In conclusion, these results demonstrate the first evidence that DGKepsilon restores cardiac dysfunction and improves survival under chronic pressure overload by controlling cellular DAG levels and TRPC-6 expression. DGKepsilon may be a novel therapeutic target to prevent cardiac hypertrophy and progression to heart failure.
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PMID:Diacylglycerol kinase-epsilon restores cardiac dysfunction under chronic pressure overload: a new specific regulator of Galpha(q) signaling cascade. 1848 37

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