EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

In the mammalian nervous system, serotonin (5-hydroxytryptamine) binds to distinct cell surface receptor subtypes that are defined by their ligand binding and effector-coupling properties. The 5HT1c receptor is a G-protein coupled receptor that stimulates phospholipase C-catalyzed hydrolysis of phosphatidylinositol bisphosphate, leading to the mobilization of intracellular calcium and to the activation of protein kinase C. By using somatic cell hybrid analysis and FISH, we have mapped the HTR1C locus to the human X chromosome, band q24 and to the mouse X chromosome region D-F4. Comparison of these map positions offers new insights into the evolution of human and murine X chromosomes. Since HTR1C is expressed in certain parts of the central nervous system and abnormal function of the serotoninergic system has been implicated in affective disorders, obsessive-compulsive disorder and epilepsy, establishing the precise map position of HTR1C is an important first step toward evaluating this locus as a candidate for mutations in these syndromes and in X-linked mental disorders.
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PMID:Serotonin receptor 1c gene assigned to X chromosome in human (band q24) and mouse (bands D-F4). 130 5

1. Thrombin is a vasoactive protease that elicits the contraction of the rabbit aorta by activating a G-protein coupled receptor through cleavage of its N-terminal extracellular domain. Synthetic peptides corresponding to the newly exposed N-terminus, following thrombin cleavage, have been shown to reproduce some of the activities of thrombin in the rabbit aorta. 2. Intracellular pathways involved in the contractile response of the rabbit aorta to thrombin and synthetic peptides were examined by use of a series of inhibitors. A similar method was applied to characterize the mitogenic effect of thrombin on cultured smooth muscle cells (SMCs) derived from the same tissue. 3. Results from this study indicate that the contractile response of the rabbit aorta to thrombin is dependent on the activation of protein kinase C (PKC) and independent of extracellular calcium. The contractile response to thrombin can be fully reproduced by peptide agonists related to the N-terminal receptor sequence. However, subtle differences seem to exist between the mechanism of the contractile effect of thrombin and of the synthetic peptides, as both PKC activation and extracellular calcium were found to participate in the contractile effect of the synthetic peptides. 4. In cultured SMCs, both thrombin and the synthetic peptides increased inositol phosphate turnover; however, only thrombin elicited a mitogenic effect, which occurs at thrombin concentrations well below those needed to increase inositol phosphate turnover significantly. Activation of a tyrosine kinase pathway is involved in the mitogenic effect of thrombin on aortic SMCs. 5. Altogether these results suggest the existence of subtle differences between the mode of action of thrombin and of synthetic peptides related to the N-terminal thrombin receptor sequence, in the rabbit aorta.
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PMID:Mode of action of thrombin in the rabbit aorta. 758 18

With the development of subtype specific angiotensin II (Ang II) receptor antagonists and their introduction into the treatment of heart failure and hypertension, the regulation of the Ang II receptor with its subtypes AT1 and Ang T2 gains clinical importance. In cell cultures, the number of surface AT1 is clearly down-regulated by Ang II exposure. Down-regulation can be due to reversible internalization, to phosphorylation and to reduced synthesis and involves protein kinase C and phospholipase C mediated pathways. In this respect, the AT1 behaves as a typical G-protein coupled receptor. Aldosterone, cAMP, norepinephrine and extracellular glucose concentrations can contribute to AT1 regulation. There are very few data regarding the regulation of the subtype AT2, indicating modulation by a number of growth factors and by Ang II. In whole animal models receptor regulation deviates partially from cell cultures. In the rat, the two subtypes AT1A and AT1B are differentially regulated and the expression of subtypes is organ specific. In most experiments, including our own experiences, the AT1, in the adrenals was up-regulated by Ang II infusion and down-regulated by angiotensin converting enzyme inhibitors (ACEI) or Ang II receptor antagonists. Differing effects were observed in other organs. In humans, a number of studies seeking an association between Ang II levels, Ang II receptor regulation and physiological events have been conducted in platelets. In pregnant women, a negative correlation between plasma Ang II levels and Ang II binding and an association between receptor regulation and pregnancy-induced hypertension has been described.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of the angiotensin receptor subtypes in cell cultures, animal models and human diseases. 771 21

Aluminum (Al3+) stimulates de novo bone formation in dogs and is a potent stimulus for DNA synthesis in non-transformed osteoblasts in vitro. The recent identification of a G-protein coupled cation-sensing receptor (BoPCaR), which is activated by polyvalent agonists [e.g., gadolinium (Gd3+) > neomycin > calcium (Ca2+)], suggests that a similar physiologically important cation sensing receptor may be present in osteoblasts and pharmacologically activated by Al3+. To evaluate that possibility, we assessed whether known BoPCaR agonists stimulate DNA synthesis in MC3T3-E1 osteoblasts and examined the additive effects of Al3+ and BoPCaR agonists on DNA synthesis in MC3T3-E1 osteoblast-like cells. We found that Al3+, Gd3+, neomycin, and Ca2+ stimulated DNA synthesis in a dose-dependent fashion, achieving 50% effective extracellular concentrations (EC50) of 10 microM, 30 microM, 60 microM, and 2.5 mM, respectively. Al3+ displayed non-additive effects on DNA synthesis with the BoPCaR agonists as well as an unrelated G-protein coupled receptor agonist, PGF2 alpha, suggesting shared mechanisms of action. In contrast, the receptor tyrosine kinase agonist, IGF-I (10 eta g/ml), displayed additive proliferative effects when combined with AlCl3, indicating distinct signalling pathways. AlCl3 (25 microM) induced DAG levels 2-fold and the phosphorylation of the myristoylated alanine-rich C kinase (MARCKS) substrate 4-fold, but did not increase intracellular calcium concentrations. Down-regulation of PKC by pre-treatment with phorbol 12-myristate 13-acetate as well as PKC inhibition by H-7 and staurosporine blocked Al(3+)-induced DNA synthesis. Finally, Al3+, Gd3+, neomycin, and Ca2+ activated G-proteins in osteoblast membranes as evidenced by increased covalent binding of [32P]-GTP-azidoanilide to putative G alpha subunits. Our findings suggest that Al3+ stimulates DNA synthesis in osteoblasts through a cation sensing mechanism coupled to G-protein activation and signalling cascades involving DAG and PKC-dependent pathways.
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PMID:Aluminum-induced DNA synthesis in osteoblasts: mediation by a G-protein coupled cation sensing mechanism. 780 84

Mammalian bombesin-like peptides gastrin-releasing peptide (GRP) and neuromedin B (NMB) are regulatory neuropeptides involved in numerous physiologic processes, and have been implicated as autocrine and/or paracrine growth factors in human lung carcinoma. Three structurally and pharmacologically distinct bombesin receptor subtypes have been isolated and characterized: the gastrin releasing peptide receptor (GRP-R), the neuromedin B receptor (NMB-R), and bombesin receptor subtype-3 (BRS-3). The three receptors are structurally related, sharing about 50% amino acid identity. They are members of the G-protein coupled receptor superfamily with a seven predicted transmembrane segment topology characteristic of receptors in this family. The signal transduction pathway for GRP-R and NMB-R involves coupling to a pertussis-toxin insensitive G-protein, activation of phospholipase C (PLC), generation of inositol trisphosphate (IP3), release of intracellular calcium, and activation of protein kinase C. While all three bombesin receptors are activated by bombesin agonists, GRP-R, NMB-R, and BRS-3 have very different affinities for the mammalian bombesin-like peptides GRP and NMB, as well as bombesin receptor antagonists. The three bombesin receptor subtypes are expressed in an overlapping subset of human lung carcinoma cell lines. Any therapeutic strategy based on modulation of bombesin growth responses in human lung carcinoma would be well served to take into account the pharmacologic heterogeneity of the relevant receptors.
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PMID:Bombesin receptor structure and expression in human lung carcinoma cell lines. 880 6

Endothelin (ET) is a potent vasoconstrictor whose responses are mediated through a common G-protein coupled receptor. So far little is known concerning its potential mitogenic capacity. In the present study, experiments were conducted to determine the role of mitogen-activated protein kinase (MAPK) activation in the rabbit thoracic artery smooth muscle cells (VSMC) in response to stimulation by ET-1. It was found that ET-1 produced concentration- and time-dependent increases in 3H-TdR incorporation and in MAPK activity of these cells. All the increases were inhibited by protein kinase C (PKC) inhibitors, such as Staurosporine (STP) and H-7 and by ETA receptor antagonist BQ123, but not by specific tyrosine kinase inhibitor Herbimycin A (Herb). Pre-treatment with PKC activator PMA (phorbol myristate acetate) for 24 h (PKC downregulation) significantly attenuated ET-1-induced MAPK activation. These results indicate that: (1) ET-1-stimulated proliferation of VSMC involves the activation of MAPK and (2) ET-1-induced MAPK activation is mediated through ETA receptor and PKC.
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PMID:[Endothelin-stimulated proliferation of thoracic artery smooth muscle cells involves activation of mitogen-activated protein kinase]. 938 95

The recently cloned GnRH receptor, a G-protein coupled receptor that spans the membrane seven times, plays a central role in the maintenance of normal reproductive events. In pituitary gonadotrophs, activation of the GnRH receptor stimulates a concert of intracellular signalling pathways. Phospholipase C stimulation generates inositol 1,4,5 trisphosphate and diacylglycerol, which release calcium and activate protein kinase C, respectively. After these primary signals, prolonged activation of protein kinase C arises from the continued production of diacylglycerol from additional signal transduction pathways. While characteristic calcium responses, involving specific calcium pools, are instrumental in triggering exocytosis, the precise role of protein kinase C activation is unclear. Key players within the exocytotic machinery are also elusive but may include a range of membrane, guanine nucleotide and calcium-binding proteins, inositol 1,4,5 trisphosphate receptors and the cell cytoskeleton. Cellular signalling is also important in determining pituitary responsiveness to GnRH, involving intracellular cross-talk between the GnRH, oestradiol and progesterone receptors.
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PMID:Intracellular mechanisms triggering gonadotrophin secretion. 941 57

Prostaglandins, produced in response to mitogens and cytokines, are potent modulators of gastrointestinal physiology and pathophysiology. We investigated modulation of Prostaglandin synthase 2 (PGS-2) expression by the gastrin-releasing peptide (GRP) receptor in Swiss 3T3 cells. PGS-2 mRNA expression in Swiss 3T3 cells was determined by Northern blot analysis. PGS-2 protein expression in Swiss 3T3 cells was measured by Western blot analysis. GRP caused a transient induction of PGS-2 mRNA in Swiss 3T3 cells that resulted in GRP-dependent expression of PGS-2 protein. Transcriptional activation of PGS-2 by GRP was independent of de novo protein synthesis and was not affected by pertussis toxin. Comparison of signaling pathways used by PMA or EGF to those used by GRP showed that PGS-2 induction by GRP increased under conditions that inhibit PKC activity. Dexamethasone, which blocks PMA and EGF induction of PGS-2, also inhibited GRP-induced accumulation of PGS-2 mRNA. These results show that PGS-2 expression in Swiss 3T3 cells is not only controlled by PKC and receptor tyrosine kinase pathways but also by G-protein coupled receptor signaling pathways.
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PMID:Gastrin-releasing peptide-induced expression of prostaglandin synthase-2 in Swiss 3T3 cells. 949 Dec 6

In GN4 rat liver epithelial cells, angiotensin II (Ang II) produces intracellular calcium and protein kinase C (PKC) signals and stimulates ERK and JNK activity. JNK activation appears to be mediated by a calcium-dependent tyrosine kinase (CADTK). To define the ERK pathway, we established GN4 cells expressing an inhibitory Ras(N17). Induction of Ras(N17) blocked EGF- but not Ang II- or phorbol ester (TPA)-dependent ERK activation. In control cells, Ang II and TPA produced minimal increases in Ras-GTP level and Raf kinase activity. PKC depletion by chronic TPA exposure abolished TPA-dependent ERK activation but failed to diminish the effect of Ang II. In PKC-depleted cells, Ang II increased Ras-GTP level and activated Raf and ERK in a Ras-dependent manner. In PKC depleted cells, Ang II stimulated Shc and Cbl tyrosine phosphorylation, suggesting that without PKC, Ang II activates another tyrosine kinase. PKC-depletion did not alter Ang II-dependent tyrosine phosphorylation or activity of p125(FAK), CADTK, Fyn or Src, but PKC depletion or incubation with GF109203X resulted in Ang II-dependent EGF receptor tyrosine phosphorylation. In PKC-depleted cells, EGF receptor-specific tyrosine kinase inhibitors blocked Ang II-dependent EGF receptor and Cbl tyrosine phosphorylation, and ERK activation. In summary, Ang II can activate ERK via two pathways; the latent EGF receptor, Ras-dependent pathway is equipotent to the Ras-independent pathway, but is masked by PKC action. The prominence of this G-protein coupled receptor to EGF receptor pathway may vary between cell types depending upon modifiers such as PKC.
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PMID:Angiotensin II stimulates ERK via two pathways in epithelial cells: protein kinase C suppresses a G-protein coupled receptor-EGF receptor transactivation pathway. 956 40

Using SK-N-SH cells, we observe that muscarinic acetylcholine receptor activation by methacholine (MCh) rapidly and selectively diminishes l-NE transport capacity (Vmax) with little or no change in norepinephrine (NE) Km and without apparent effects on membrane potential monitored directly under current clamp. Over the same time frame, MCh exposure reduces the density of [3H]nisoxetine binding sites (Bmax) in intact cells but not in total membrane fractions, consistent with a loss of transport capacity mediated by sequestration of transporters rather than changes in intrinsic transport activity or protein degradation. Similar changes in NE transport and [3H]nisoxetine binding capacity are observed after phorbol ester (beta-PMA) treatment. Inhibition of PKC by antagonists and downregulation of PKC by chronic treatment with phorbol esters abolishes beta-PMA-mediated effects but produce only a partial blockade of MCh-induced effects. Neither muscarinic acetylcholine receptor nor PKC activation require extracellular Ca++ to diminish NET activity. In contrast, treatment of cells with the Ca++/ATPase antagonist, thapsigargin in Ca++-free medium, eliminates the staurosporine-insensitive component of MCh regulation. These findings were further corroborated by the ability of [1, 2-bis(o-amino-phenoxy)ethane-N,N,N',N'-tetraacetic acid tetra(acetoxymethyl)ester application in Ca++-free medium to abolish NET regulation by MCh. Although they may contribute to basal NET expression, we could not implicate CaMKII-, PKA- or nitric oxide-linked pathways in MCh regulation. Together, these findings 1) provide evidence in support of G-protein coupled receptor-mediated regulation of catecholamine transport, 2) reveal intracellular Ca++-sensitive, PKC-dependent and -independent pathways that serve to regulate NET expression and 3) indicate that the diminished capacity for NE transport evident after mAChR and PKC activation involves a redistribution of NET protein.
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PMID:Acute regulation of norepinephrine transport: I. protein kinase C-linked muscarinic receptors influence transport capacity and transporter density in SK-N-SH cells. 980 4

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