Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent evidence demonstrates that the protein kinase C zeta (zeta PKC) isoform is required for the activation of nuclear factor kappa B (NF-kappa B) and mitogenic signaling in Xenopus oocytes and mammalian cells. The mechanism whereby zeta PKC regulates NF-kappa B most probably involves the activation of a putative I kappa B kinase of molecular mass approximately 50 kDa, which phosphorylates and inactivates I kappa B. Tumor necrosis factor alpha (TNF alpha) and interleukin-1, besides activating the phospholipase C-mediated breakdown of phosphatidylcholine, also generate ceramide, which is produced by stimulation of sphingomyelin hydrolysis. We show here that exogenous addition of sphingomyelinase (SMase) to NIH-3T3 fibroblasts transactivates a kappa B-dependent chloramphenicol acetyltransferase reporter plasmid, to an extent similar to that produced by TNF alpha or phosphatidylcholine/phospholipase C. More importantly, the ability of SMase to stimulate this parameter is severely impaired by transfection of a zeta PKC kinase-defective dominant negative mutant, which suggests a critical role of zeta PKC in SMase signaling. In keeping with this notion, we also demonstrate here that zeta PKC is activated in vitro by ceramide and in vivo by treatment of NIH-3T3 fibroblasts with SMase.
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PMID:Protein kinase C zeta isoform is critical for kappa B-dependent promoter activation by sphingomyelinase. 803 80

In cultured striatal neurons from embryonic mice, carbachol was found to stimulate the release of arachidonic acid (AA) EC50 = 87 microM) and formation of inositol phosphates (IPs) (EC50 = 54 microM). Both responses were reproduced by muscarinic but not nicotinic agonists, and both exhibited the same pharmacological profile toward four muscarinic antagonists. Furthermore, both responses were insensitive to pertussis toxin, providing additional evidence for the involvement of the same muscarinic receptor(s), most probably of the m1 subtype. Both carbachol-evoked responses were also highly sensitive to the presence of external calcium. The calcium ionophore ionomycin, ineffective alone on AA release, strongly potentiated the carbachol response. In contrast, ionomycin alone stimulated the formation of IPs but did not significantly modify the carbachol response. Protein kinase C activation positively regulated the carbachol-evoked release of AA because this response was markedly potentiated by phorbol 12-myristate 13-acetate (PMA) and was abolished by sphingosine and Ro 31-8220. In contrast, PMA markedly inhibited the carbachol-evoked formation of IPs. The carbachol-evoked release of AA was not mimicked by the combined applications of ionomycin and PMA, which suggests that phospholipase C stimulation alone is not sufficient to trigger AA release. Taken together, these results suggest that the coupling of m1 receptors to a putative phospholipase A2 that is positively regulated by protein kinase C and by calcium is necessary for the carbachol-evoked release of AA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Muscarinic cholinergic agonists stimulate arachidonic acid release from mouse striatal neurons in primary culture. 818 31

Possible mechanisms of AlCl3-induced inhibition of agonist-stimulated inositol phosphate (IP) accumulation were investigated using rat brain cortex slices, synaptosomes or homogenates. Under conditions in which AlCl3 inhibits carbachol (CARB)-stimulated IP accumulation (Gp-mediated), AlCl3 did not affect CARB (100 microM)-induced decreases (Gi-mediated) in 30 microM forskolin-stimulated cAMP accumulation, suggesting that AlCl3 may be specific for Gp-mediated signal transduction. To determine whether AlCl3 interfered with Gp function and/or phosphatidylinositol-specific phospholipase C (PiPLC) activity, effects of AlCl3 on CARB- and Ca(2+)-stimulated IP accumulation were examined in cortical synaptosomes. AlCl3 (500 microM) decreased CARB (1 mM)- and Ca2+ (20 microM ionomycin)-stimulated IP accumulation to 77 and 75% of control, respectively, suggesting that AlCl3 may not directly affect Gp activity, but does inhibit PiPLC activity. In cortical homogenates, AlCl3 (10-500 microM) inhibited hydrolysis of [3H]phosphatidylinositol 4,5-bisphosphate (PIP2) by PiPLC in a concentration-dependent manner with an estimated IC50 of 100 microM. The effects of AlCl3 on modulation of IP accumulation by extracellular Ca2+ and PKC were also examined as potential mechanisms. Decreasing the extracellular Ca2+ concentration ([Ca2+]e) from 1.0 to 0.1 mM decreased CARB-stimulated IP accumulation in slices. AlCl3 (500 microM) decreased significantly 1 mM CARB-stimulated IP accumulation in 1.0 and 0.1 mM Ca2+ solutions; however, the effect of AlCl3 on IP accumulation did not depend on [Ca2+]e. In cortical slices, inhibition of 1 mM CARB-stimulated IP accumulation by 500 microM AlCl3 was not altered by the PKC activator phorbol 12,13-dibutyrate (PdBu, 1 microM), or the PKC inhibitor H-7 (10 microM), suggesting that AlCl3 does not interfere with IP accumulation by activation of PKC. Other studies found that AlCl3 (10-100 microM) inhibited PKC activity in a concentration-dependent manner in both cytosolic and membrane fractions of cortical homogenates with an estimated IC50 of 60 microM. These results support the hypothesis that AlCl3 inhibition of agonist-stimulated IP accumulation may be mediated by inhibition of PiPLC activity, rather than disruption of G-protein function or modulation of the IP signalling system by Ca2+ or PKC.
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PMID:Mechanisms underlying AlCl3 inhibition of agonist-stimulated inositol phosphate accumulation. Role of calcium, G-proteins, phospholipase C and protein kinase C. 818 49

Previous studies have shown that intracellular killing of bacteria by monocytes is stimulated by interaction between IgG and Fc gamma receptors (Fc gamma R) in the membrane of these cells. In the present study anti-Fc gamma R monoclonal antibodies (mAb) were used to investigate the relative contributions of the various classes of Fc gamma R to the intracellular killing of Staphylococcus aureus by human monocytes and the biochemical pathways involved. Anti-Fc gamma RI or anti-Fc gamma RII mAb, but not anti-Fc gamma RIII mAb, efficiently stimulated the intracellular killing of bacteria by monocytes. Cross-linking Fc gamma RI or Fc gamma RII, but not Fc gamma RIII, on monocytes with mouse anti-Fc gamma R mAb followed by bridging with F(ab')2 fragments of goat anti-mouse IgG enhanced this process. Since the NADPH oxidase inhibitor diphenyleneiodonium blocked the Fc gamma R-mediated intracellular killing of S. aureus, oxygen-dependent bactericidal mechanisms are most probably involved. Cross-linking Fc gamma RI or Fc gamma RII but not binding of the mAb to the Fc gamma R on monocytes activated phospholipase C, as demonstrated by the increase in the intracellular concentration of inositol-(1,4,5)-triphosphate. The enhanced intracellular killing stimulated by cross-linking Fc gamma R on monocytes was completely blocked by U-73122, an inhibitor of phospholipase C-dependent processes. Protein kinase C activity, but not the rise in the cytosolic free Ca++ concentration or pertussis toxin-sensitive G proteins, is essential for the Fc gamma R-mediated intracellular killing of bacteria by monocytes. Together, these results demonstrate that cross-linking Fc gamma RI or Fc gamma RII is equally effective in stimulating the intracellular killing of bacteria by monocytes and that this stimulation is a phospholipase C-dependent process.
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PMID:Stimulation of the intracellular killing of Staphylococcus aureus by human monocytes mediated by Fc gamma receptors I and II. 822 59

Protein kinase C (PKC) down-regulation has been shown to correlate with the growth of murine melanocytic cells in culture (Brooks, G., Wilson, R. E., Dooley, T. P., Goss, M. W., and Hart, I. R. (1991) Cancer Res. 51, 3281-3288). We now show that PKC alpha, delta, epsilon, and zeta isoforms are present at the protein level in quiescent, non-transformed Mel-ab melanocytes, maintained in the absence of phorbol ester. Proliferation of Mel-ab cells, achieved by incubation in the continual presence of phorbol 12,13-dibutyrate, was associated with a down-regulation of the PKC alpha, delta, and epsilon isozymes. Examination of two transformed syngeneic lines (the B16 murine melanoma and the long terminal repeat Ras.2 line), that grew in the absence of exogenous phorbol esters, showed that PKC alpha protein levels were either partially down-regulated or unaffected, the PKC delta and epsilon isoforms were down-regulated completely, and the levels of PKC zeta protein remained unaltered relative to quiescent Mel-ab cells. Basal levels of total diacylglycerol were elevated 5-fold in B16 melanoma cells compared with levels found in quiescent or proliferating Mel-ab melanocytes and appear to arise largely from the breakdown of phosphatidylinositol phospholipids accompanied by a significant rise in phospholipase C activity. Hourly treatments of quiescent Mel-ab melanocytes with the synthetic diacylglycerol analogue, 1,2-dioctanoyl-sn-glycerol, for 24 h, resulted in an induction of DNA synthesis which was associated with a significant down-regulation of PKC levels mediated largely via post-translational rather than transcriptional mechanisms. These results show for the first time that specific isoforms of PKC are down-regulated at the protein level during proliferation of murine melanocytic cells and suggest that the constitutive down-regulation of PKC in transformed melanoma cells may arise as a consequence of elevated endogenous phosphatidylinositol-derived diacylglycerol levels.
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PMID:Growth of melanocytic cells is associated with down-regulation of protein kinase C alpha, delta, and epsilon isoforms. Possible role of diacylglycerol. 822 26

Studies carried out in many laboratories have demonstrated the activation of phospholipase D (PLD) by a variety of receptor agonists and in many cell types. The signal-dependent formation of phosphatidic acid (PA), by PLD-catalyzed hydrolysis of phosphatidylcholine (PC), may represent a novel and ubiquitous signal transduction pathway in mammalian cells. The mode(s) of coupling between agonist receptors and PLD activation are not well understood. Studies utilizing NIH-3T3 fibroblasts indicated that PLD activation by different mitogens involves distinct mechanisms. Protein kinase C (PKC) seems to play a role both as a mediator and as a modulator of PLD activation. The role of PKC was further examined in Swiss/3T3-derived fibroblasts which stably overexpress PKC-alpha. In these cells, both basal and agonist-stimulated PLD activity are higher than in control cells. In vitro analysis of PLD activity in detergent-solubilized cell membranes, utilizing exogenous C6-NBD-PC as fluorescent substrate, showed nearly 2-fold higher activity in membranes from cells that overexpress PKC-alpha. These results suggest that PKC-alpha may play a role in regulating PLD expression. The PLD product PA was identified as a precursor of 'late phase' diacylglycerol which, at least in some cases, was temporally correlated and causally related to the sustained activation of PKC. However, PA may itself act as an intracellular messenger in its own right, although immediate targets for its action have not yet been identified. Activation of phosphoinositide-phospholipase C, PLD and phospholipase A2 seems to comprise a signaling cascade which is typically utilized by most (if not all) Ca(2+)-mobilizing agonists.
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PMID:Phospholipase D-mediated hydrolysis of phosphatidylcholine: role in cell signalling. 826 64

Recent studies have demonstrated the presence and the regulatory function of several neurotransmitters in the immune system. In the present study, we examined the presence of acetylcholine receptors, using pharmacological and molecular biological assays, and their transmembrane control and functions, using a biochemical assay, in a cloned human leukemic helper T lymphoma cell line, Jurkat. Several muscarinic agonists, such as acetylcholine, carbachol, muscarine, and oxotremorine-M (Oxo-M), at 100 microM caused a transient elevation of the free cytosolic Ca2+ concentration ([Ca2+]i), in contrast to the tonic elevation of [Ca2+]i induced by 10 micrograms/ml phytohemagglutinin (PHA). It appeared that the elevation induced by Oxo-M, the most potent [Ca2+]i elevator, was more effectively inhibited by p-fluorohexahydrosiladifenidol hydrochloride (p-F-HHSiD) and 4-diphenylacetoxy-N-methylpiperidine methiodine than by pirenzepine and 11-2[[2-[(diethylamino)methyl]-1-piperidinyl]acetyl]-5,11-dihydro- 6H-pyrido[2,3-b] [1,4]benzodiazepine-6-one (AF-DX 116), suggesting that a pharmacological M3 subtype of muscarinic receptors is involved in the elevation of [Ca2+]i. Northern blot analysis showed that the m3 type of receptors are expressed in Jurkat cells. Scatchard analysis of [3H]quinuclidinyl benzilate binding to intact cells indicated a Kd of 14.1 nM and a Bmax of 45,370 binding sites/cell. [3H]Quinuclidinyl benzilate binding to cell membranes was also inhibited by p-F-HHSiD rather than by pirenzepine and AF-DX 116. Oxo-M induced formation of inositol trisphosphate, and 5'-O-(2-thio)diphosphate inhibited the formation. Cholera toxin treatment inhibited the PHA-induced [Ca2+]i rise but did not affect the Oxo-M-induced rise. Neither pertussis nor butulinus (type C) toxin affected the rise induced by Oxo-M or PHA. Thus, bacterial toxin-insensitive GTP-binding proteins seem to be involved in the Oxo-M-induced increase in [Ca2+]i. Treatment with 12-O-tetradecanoylphorbol 13-acetate abolished the Oxo-M-induced [Ca2+]i rise but did not affect that induced by PHA. m3 Muscarinic receptors thus appear to cause Ca2+ mobilization from intracellular stores via bacteria toxin-insensitive GTP-binding proteins, phospholipase C activation, and inositol trisphosphate formation in Jurkat cells. Protein kinase C seems to negatively modulate the m3 receptor system.
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PMID:Presence of m3 subtype muscarinic acetylcholine receptors and receptor-mediated increases in the cytoplasmic concentration of Ca2+ in Jurkat, a human leukemic helper T lymphocyte line. 838 1

ATP is a well-known inducer of prostacyclin and nitric oxide release from vascular endothelial cells. These responses are mediated by P2 receptors coupled to a phospholipase C. We have investigated the influence of ATP on the control of adenosine 3',5'-cyclic monophosphate (cAMP) in bovine aortic endothelial cells. ATP produced a slight increase in the cAMP content of unstimulated endothelial cells. A more impressive response to ATP (5-fold) was observed in forskolin-stimulated cells. The rank orders of potency of various ATP analogues were strikingly different for the increase in cAMP and the accumulation of inositol phosphates. The action of ATP was unaffected by indomethacin. Protein kinase C downregulation produced only a partial inhibition of the ATP response. The effect of phorbol 12-myristate 13-acetate and bradykinin on the forskolin-induced accumulation of cAMP was much smaller than that of ATP. Neither adenosine deaminase nor AMP deaminase decreased the response to ATP, which thus cannot result from the ATP degradation into adenosine. However, 8-(p-sulfophenyl)theophylline inhibited the responses to both ATP and adenosine. In conclusion, ATP enhances the accumulation of cAMP in endothelial cells. This action appears to be the sum of two components: a minor one resulting from kinase C activation and a major one mediated either by a direct interaction of ATP with A2 receptors, or by putative methylxanthine-sensitive P2 receptors.
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PMID:Enhancement of endothelial cAMP accumulation by adenine nucleotides: role of methylxanthine-sensitive sites. 838 57

We have examined in the human T-cell line Jurkat the interaction between the activation through the T-cell receptor/CD3 complex and the adenylate cyclase pathway. OKT3, an anti-CD3 monoclonal antibody, did not activate by itself adenylate cyclase but produced a 3-7-fold increase of the cAMP accumulation induced by indirect (chloroadenosine, PGE2) or direct (forskolin) agonists of adenylate cyclase. A more detailed study with forskolin showed that OKT3 enhanced the effect of low concentrations of the agonist without affecting the maximal capacity of cAMP synthesis of the cells. The same concentrations of OKT3 produced both the enhancement of the adenylate cyclase pathway and the activation of phospholipase C. The enhancement by OKT3 of the adenylate cyclase pathway was inhibited by 0.5 microM staurosporine, a potent inhibitor of protein kinases, including tyrosine kinases and protein kinase C, whereas it was not inhibited by H7, a specific inhibitor of PKC. Staurosporine, at the same concentration, also inhibited the OKT3-induced activation of phospholipase C, a tyrosine kinase-dependent process. Taken together, these data indicate that activation of T-cell through the T-cell receptor enhances the adenylate cyclase pathway by a tyrosine protein kinase-dependent mechanism.
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PMID:T-cell antigen receptor-mediated enhancement of the adenylate cyclase pathway depends on tyrosine protein kinases. 838 29

The aim is to summarize briefly the evidence for the existence and possible functions of receptor-mediated activity of phospholipases C and D in the myocardium. Muscarinic, alpha 1-adrenergic, angiotensin II, endothelin-1, thrombin, adenine nucleotide and opioid peptide receptors are all linked through GTP-binding proteins to phospholipase C which hydrolyses phosphatidylinositol 4,5-bisphosphate (PIP2) in the myocardium. Events that are not linked to receptors, such as mechanical loading (stretching) of cardiomyocytes, can also activate phospholipase C. The high capacity for resynthesis of PIP2 maintains the pool of PIP2, even during maximal activation of phospholipase C. Activation of phospholipase C by endothelin-1, alpha 1-adrenoceptor and angiotensin II, is subject to different rates of homologous desensitization. Protein kinase C is probably not involved in the desensitization of the response to endothelin-1. One of the products of the hydrolysis of PIP2, inositol 1,4,5-trisphosphate (IP3), releases Ca2+ from the sarcoplasmic reticulum. This intracellular response seems to be causally related to positive inotropy. The phosphorylated product of IP3, inositol 1,3,4,5-tetrakisphosphate (IP4), is believed to play a role in the handling of intracellular Ca2+, as well as in the inotropic response; however, its formation is controversial. At present the oscillations in the level of intracellular Ca2+ underlying, for example, the positive inotropy induced by alpha 1-adrenoceptors or endothelin are not clearly identified. The other product of phospholipase C, 1,2-diacylglycerol, activates Ca(2+)-dependent protein kinase C and potentially controls a wide array of cellular functions such as ion transport, myofibrillar Ca2+ sensitivity, "cross-talk" between phospholipases C and D, gene expression, protein synthesis and hypertrophic cell growth. Alterations in the fatty acid composition, particularly the polyunsaturated fatty acids, modify the phosphoinositide response induced by hormones. Cultured cardiomyocytes, incubated in sera containing the fatty acids 18:2n-6 or 20:5n-3, but not 18:0 and 18:1n-9, show a decrease in the phospholipase C responses mediated by alpha 1-adrenoceptors. The fatty acid composition of myocardial phosphatidyl inositol 4-monophosphate (PIP) and PIP2 differs from that of phosphatidylinositol, which indicates that phosphatidylinositol kinases have a certain substrate specificity or have access to localized phosphatidylinositol molecules. The estimation of the level of stimulated 1,2-diacylglycerol is complicated by the contribution of the activity of receptor-mediated phospholipase D. The identification of the molecular species of 1,2-diacylglycerol is crucial in establishing the roles and the sources of 1,2-diacylglycerol. The fatty acids covalently bound in the membrane phospholipids may also influence phospholipases C and D.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Receptor-mediated signalling pathways acting through hydrolysis of membrane phospholipids in cardiomyocytes. 840 19


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