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)

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

The survey of agents that stimulate increases of cAMP and cGMP revealed many similarities but some differences between basophils, mast cells, and neutrophils. With procedures now available for isolation of eosinophils, it will be of great interest to learn how their cyclic nucleotides are regulated. In the granulocytes studied to date, most functions are inhibited by cAMP. In blood basophils and lung mast cells, but apparently not in rat peritoneal mast cells, cGMP can promote release reactions. Neutrophil functions are regulated by cAMP to variable degrees, O2- generation being the most sensitive and phagocytosis perhaps the least. cAMP controls cell surface receptor- and Ca(2+)-dependent events but not those signaled by PKC activation. Very few cytokines have been analyzed for their effects on cyclic nucleotides. LIF and GM-CSF increase cGMP, but more studies are needed to determine whether this effect is relevant to the biological effects of the cytokines. It is conceivable that the clinical efficacy of cytokines could be enhanced by the co-administration of agents tailored to enhance the cytokines' desirable effects on cyclic nucleotides. The study of cAMP, cGMP, and other signaling systems will certainly provide material for exciting research for a considerable time.
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PMID:Effects of cyclic nucleotides on granulocytes. 132 14

Fibroblast growth factors (FGFs), like nerve growth factor (NGF), induce morphological differentiation of PC12 cells. This activity of FGF is regulated by glycosaminoglycans. To further understand the mechanisms of FGF and glycosaminoglycan actions in PC12 cells, we studied the regulation of protein phosphorylation and ornithine decarboxylase (ODC) activity by FGF in the presence and absence of heparin. As with NGF, aFGF and bFGF increased the incorporation of radioactive phosphate into the protein tyrosine hydroxylase (TH). The increase in TH phosphorylation was localized to the tryptic peptide, T3. Both T3 and T1 phosphorylations occur in response to NGF, but there was no evidence that aFGF or bFGF stimulated the phosphorylation of the T1 peptide. This result suggests differential regulation of second messenger systems by NGF and FGF in PC12 cells. Heparin, at a concentration that potentiated aFGF-induced neurite outgrowth 100-fold (100 micrograms/ml), did not alter the ability of aFGF to increase S6 phosphorylation or ODC activity. One milligram per milliliter of heparin, a concentration that inhibited bFGF-induced neurite outgrowth, also inhibited bFGF-induced increases in S6 phosphorylation and ODC activity. These observations suggest (i) that acidic and basic FGF activate a protein kinase, possibly protein kinase C, resulting in the phosphorylation of peptide T3 of TH; (ii) that the FGFs and NGF share some but not all second messenger systems; (iii) that heparin potentiates aFGF actions and inhibits bFGF actions in PC12 cells via distinct mechanisms; (iv) that heparin does not potentiate the neurite outgrowth promoting activity of aFGF by enhancing binding to its PC12 cell surface receptor; and (v) that heparin may coordinately regulate several activities of bFGF (induction of protein phosphorylation, ODC and neurite outgrowth) via a common mechanism, most likely by inhibiting the productive binding of bFGF to its PC12 cell surface receptor.
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PMID:Rapid fibroblast growth factor-induced increases in protein phosphorylation and ornithine decarboxylase activity: regulation by heparin and comparison to nerve growth factor-induced increases. 135 51

The mechanism by which an agonist, binding to a cell surface receptor, exerts an effect on events in the nucleus is not known. We have previously shown (Leach, K. L., Ruff, V. A., Wright, T. M., Pessin, M. S., and Raben, D. M. (1991) J. Biol. Chem. 266, 3215-3221) that alpha-thrombin treatment of IIC9 cells results in increased levels of cellular 1,2-diacylglycerol (DAG) and activation of protein kinase C (PKC). Here, we have examined whether changes in nuclear PKC and nuclear DAG also are induced following alpha-thrombin treatment. IIC9 cells were treated with 500 ng/ml alpha-thrombin, and nuclei were then isolated. Western blot analysis using isozyme-specific antibodies demonstrated the presence of PKC alpha, but not PKC epsilon or zeta in the nuclei of cells treated with either phorbol 12-myristate 13-acetate or alpha-thrombin. The increase in nuclear PKC alpha levels was accompanied by a 10-fold increase in nuclear PKC specific activity and stimulated phosphorylation of at least six nuclear proteins. The rise in nuclear PKC levels occurred rapidly and reached a maximum at 30-60 s, which was followed by a decline back to the control level over the next 15 min. In addition, alpha-thrombin treatment resulted in an immediate rise in DAG mass levels in the nuclear fractions. Kinetic analysis indicated that a maximum increase in DAG levels occurred 2.5-5 min after the addition of alpha-thrombin and remained elevated for at least 30 min. In cells labeled with [3H]myristic acid, alpha-thrombin treatment induced an increase in radiolabeled nuclear diglycerides, suggesting that the stimulated nuclear DAGs are derived, at least in part, from phosphatidylcholine. Our results suggest that increases in both nuclear DAG levels and PKC activity following alpha-thrombin treatment may play a role in mediating thrombin-induced nuclear responses such as changes in gene expression and cellular proliferation.
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PMID:Alpha-thrombin stimulates nuclear diglyceride levels and differential nuclear localization of protein kinase C isozymes in IIC9 cells. 140 Apr 91

Lysophosphatidylcholine (lysoPC) transferred from oxidatively modified low density lipoprotein (Ox-LDL) to the endothelial surface membrane has been shown to produce a selective unresponsiveness to cell surface receptor-regulated endothelium-dependent relaxation (EDR) in the rabbit aorta. To determine its mechanism we examined the effects of lysoPC on endothelial surface receptor-mediated transmembrane signals. Incubation for 1 minute with palmitoyl lysoPC (5-10 microM) decreased thrombin (Th, 2 units/ml)- or histamine (His, 0.1 mM)-stimulated inositol 1,4,5-trisphosphate (IP3) production in primary cultures of human umbilical vein endothelial cells (HUVECs). LysoPC also decreased Th- or His-induced intracellular calcium ([Ca2+]i, fura 2) elevation. Pretreatment with protein kinase C (PKC) inhibitors staurosporine (100 nM) or H-7 (50 microM) prevented the inhibitory actions of lysoPC, but HA-1004 had no effect. Incubation for 5 minutes with phorbol 12-myristate 13-acetate (PMA, 100 nM) produced the inhibitory actions on the Th- or His-induced intracellular signals, which closely mimic those exhibited by lysoPC. However, the inhibitory effect of lysoPC was lost in cells that were depleted of PKC by pretreatment for 24 hours with 100 nM PMA. Furthermore, incubation of the cells for 1 minute with lysoPC stimulated PKC activity in the membrane fraction. In organ chamber experiments with porcine coronary artery rings, pretreatment with staurosporine (20 nM) attenuated lysoPC-induced impairment of EDR in response to Th. These results indicate that lysoPC, which accumulates in Ox-LDL and atherosclerotic arterial walls, inhibits the early transmembrane signaling pathway in endothelial cells, and PKC activation could at least partially be involved in the negative regulation by lysoPC.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lysophosphatidylcholine inhibits surface receptor-mediated intracellular signals in endothelial cells by a pathway involving protein kinase C activation. 142 37

This review outlines evidence that IL-1, IL-2, and TNFs modulate neutrophil functions. These cytokines affect some or all of the following functions of the neutrophil: adherence, cell migration, respiratory burst, lysosomal enzyme release, and cell surface receptor expression. TNFs, especially TNF alpha, remains one of the most highly studied cytokine with respect to regulation of neutrophil function. TNFs are a direct stimuli for the neutrophil respiratory burst and weak stimuli of lysosomal enzyme release. The cytokines enhance cell adhesion and inhibit neutrophil migration. The TNFs augment the oxidative burst and lysosomal enzyme release response to a wide range of soluble and particulate cell stimuli. These changes in the cell seem to be closely correlated with the increased fungicidal, bactericidal, tumoricidal, and protozoacidal activity of the TNF-primed neutrophils. In contrast to TNFs, IL-1 and IL-2 inhibit neutrophil adherence, and this provides evidence that the cytokine family represents a regulatory system. Another form of regulation of TNF alpha and IL-1 neutrophil-activating activity is by the release of inhibitors to these cytokines (58). We have evidence which shows that the soluble TNF alpha inhibitor (a cleaved product of the TNF alpha receptor) (59) binds and inhibits TNF from activating and priming neutrophils (60). Priming of neutrophils by TNFs involves surface receptor binding but is independent of protein kinase C system, pertussis toxin-sensitive guanine nucleotide regulatory protein, and direct burst of respiratory activity. The translocation of cell surface receptors and constituents of the NADPH oxidase from stored vesicles may be the major mechanism of TNF-induced cell priming.
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PMID:Activation of neutrophils by interleukins-1 and -2 and tumor necrosis factors. 150 43

It has long been known that intracellular cAMP inhibits and cGMP enhances intact neutrophil function. However, these effects are modest and require relatively high concentrations of the cyclic nucleotides. We decided to re-examine the effects of cyclic nucleotides on Ca2(+)-induced secretion by electroporated cells. This system allowed us to bypass normal cell surface receptor-ligand interactions as well as to directly expose the intracellular space to native cyclic nucleotides. We found that concentrations of cAMP as low as 3 microM inhibited Ca2(+)-induced secretion; 30-300 microM cAMP was maximally inhibitory. cAMP was actually slightly more potent than dibutyryl cAMP, a membrane-permeant derivative. In contrast, cGMP was only slightly stimulatory at 3 microM and modestly inhibitory at 300 microM; dibutyryl cGMP was ineffective. A more detailed investigation of the effects of cAMP showed that inhibition was only obtained in the presence of Mg2+. Half-maximal inhibition by cAMP occurred at 10-30 microM. Inhibition by cAMP was achieved by shifting the Ca2+ dose-response curve for secretion to the right; this was observed for the release of both specific granules (vitamin B12 binding protein) and azurophil granules (B-glucuronidase). We previously showed that ATP could enhance Ca2(+)-induced secretion in the presence of Mg2+, apparently by interacting with a cell surface purine receptor. However, increasing concentrations of ATP could not overcome inhibition by cAMP; this suggested that cAMP acted at some site other than the purine receptor. Inhibition by cAMP was also less apparent in the presence of the protein kinase C agonist phorbol myristate acetate (PMA), suggesting that the cyclic nucleotide did not produce systemic desensitization of the neutrophils. In summary, these results demonstrate that low, physiologically relevant concentrations of cAMP can modulate neutrophil responsiveness.
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PMID:Cyclic AMP inhibits secretion from electroporated human neutrophils. 184 4

We have used isolated canine parietal cells to examine the receptor and postreceptor events mediating the inhibitory effects of somatostatin on acid secretion. Somatostatin-14 (S14) and somatostatin-28 (S28) dose dependently inhibited parietal cells stimulated by secretagogues that activate both the adenylate cyclase/cyclic adenosine monophosphate and the inositol phospholipid/protein kinase C cascades. The inhibitory action was mediated via a specific cell surface receptor that consists of a single subunit protein (molecular weight 99,000 d). This receptor recognized S14 and S28 equally well. Somatostatin inhibited parietal cell activity via mechanisms that are both dependent on and independent of a pertussis toxin-sensitive inhibitory guanine nucleotide binding protein.
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PMID:Cellular mechanisms of somatostatin action in the gut. 197 8

Expression of the human (hu) IFN-gamma-R has been studied in Raji and IM9 cells (two B lymphoblastoid cell lines) and in THP-1 cells (a monocytic cell line) with respect to IFN-gamma binding sites, receptor protein and mRNA levels. Although, in these three cell lines, the hu-IFN-gamma-R mRNA was expressed to the same extent, the high affinity receptor was expressed differently both in cell surface receptor binding and amount of receptor protein. Various ligands are able to modulate the expression of their own receptor. We investigated the modulation of the hu-IFN-gamma-R by its ligand. Hu-IFN-gamma induced a rapid and dose-dependent decrease of its cell surface receptor number without alteration of receptor affinity, amounts of receptor protein or hu-IFN-gamma-R mRNA accumulation and stability. Thus, in Raji, IM9, and THP-1 cells, the hu-IFN-gamma had no effect on its receptor gene expression and the cell surface decrease was simply due to ligand blocking and receptor internalization rather than true down-regulation. The second messenger in the hu-IFN-gamma signal transduction pathway is not well characterized, but activation of protein kinase C has been reported in some cases. Therefore, the modulation of the hu-IFN-gamma-R expression by PMA, a potent activator of protein kinase C and a modulator of other receptor expression, has been investigated. In Raji and IM9 cells, PMA had no or few effects on the cell surface receptor number and no detectable effect on the receptor protein or on mRNA levels. In contrast, in THP-1 cells, PMA treatment induced a time and dose-dependent five- to sixfold increase of the cell surface receptors due to a rapid and persistent increase of the hu-IFN-gamma-R gene expression in THP-1 cells was specifically inhibited or reversed by hu-IFN-gamma treatment. The modulation of the hu-IFN-gamma-R expression by PMA in THP-1 cells and by hu-IFN-gamma in PMA-treated THP-1 cells seems associated with their effect on monocyte-macrophage differentiation and/or macrophage activation.
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PMID:Differential regulation of the human IFN-gamma receptor expression in Raji and IM9 lymphoblastoid cells versus THP-1 monocytic cells by IFN-gamma and phorbol myristate acetate. 214 Oct 42

Preincubation with receptor agonists or phorbol esters desensitized muscarinic-receptor-mediated [3H]cyclic GMP responses in mouse neuroblastoma N1E-115 cells. However, desensitization mediated by phorbol esters was heterologous, whereas that effected by receptor agonist was specific towards the muscarinic receptors. In addition, there was no loss of cell surface muscarinic receptors, as measured by the binding of the hydrophilic ligand [3H]N-methylscopolamine, when cells were treated with phorbol esters, but receptor-agonist-induced desensitization was accompanied by a decrease in cell surface receptor density. We examined the role of protein kinase C (PKC) in the desensitization of muscarinic receptors by employing a kinase inhibitor and by down-regulation of PKC by long-term incubation of cells with phorbol esters. Whereas these manoeuvres had marked effects on phorbol-ester-induced desensitization of muscarinic responses, they did not block agonist-induced down-regulation and desensitization of muscarinic receptors. In addition, when phosphoinositide hydrolysis was suppressed, the muscarinic agonist was still capable of mediating receptor sequestration and desensitization. These results suggest that the mechanisms for regulating muscarinic receptor sensitivity could be both PKC-dependent and PKC-independent, being mediated by phorbol esters and receptor agonists respectively.
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PMID:Protein kinase C is involved in desensitization of muscarinic receptors induced by phorbol esters but not by receptor agonists. 215 8


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