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)

Regulation of phospholipase C (PLC) by receptors is mediated either through protein tyrosine phosphorylation or by activation of GTP-binding proteins (Gp). For the latter, pertussis toxin (PT)-sensitive and -insensitive pathways have been described, indicating PLC regulation by at least two types of G-proteins. The identity of PLC isoenzymes which are regulated by either type of Gp remains to be determined. Thyrotropin-releasing hormone stimulates a PLC in GH3 cells via a PT-insensitive Gp. Reconstitution methods for the assay of the GH3-cell Gp were developed. Previously, the membrane PLC was found to be reversibly extracted from membranes by high salt and to be activated by guanosine 5'-[gamma-thio]triphosphate (GTP[S]) only when membrane-associated, suggesting that Gp was retained in salt-extracted membranes. In the present work, Gp was cholate-solubilized from PLC-deficient membranes and incorporated into phospholipid vesicles, which were found to confer GTP[S]- and AlF4(-)-stimulated activity on a solubilized membrane PLC. The reconstitution provided a direct assay for the GH3-cell Gp which was shown to be distinct from Gi, Go and Gs proteins by immunodepletion studies. Incorporation of G-protein beta-gamma subunits into phospholipid vesicles with Gp inhibited GTP[S]-stimulated activity in the reconstitution. The results indicated that Gp is a heterotrimeric G-protein with the properties expected for the PT-insensitive GH3-cell Gp protein. PLC-beta 1 was fully purified and shown to be regulated by Gp in the reconstitution. In contrast, PT-sensitive G-proteins failed to affect the activity of PLC-beta 1. The results indicate (1) that a PT-insensitive Gp regulates PLC-beta 1 and (2) that PT-sensitive and -insensitive pathways of PLC regulation employ different PLC isoenzymes as well as different G-proteins.
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PMID:Phospholipase C-beta 1 is regulated by a pertussis toxin-insensitive G-protein. 166 86

Endothelins are a novel group of potent vasoconstrictor peptides originally isolated from cultured porcine endothelial cells. We and others have previously reported the presence of endothelin receptors in the central nervous system, and this study was designed to further characterize endothelin receptors and their transduction mechanism in cultured neurohybrid NG108-15 cells. Specific binding of [125I]endothelin-1 to NG108-15 cells reached saturation within 60 min at 22 degrees C and was only partially reversible. Scatchard analysis of the saturation binding revealed the presence of one class of high-affinity binding sites with an apparent dissociation constant of 160 pM and a maximal binding capacity of 3.3 x 10(4) sites/cell. Unlabeled endothelin analogues competitively inhibited [125I]endothelin-1 binding to NG108-15 cells and the apparent dissociation constant values obtained from the competition curves correlated well with the EC50 values obtained for inducing elevation of intracellular free Ca2+ level. Endothelin stimulated phosphoinositide metabolism in a dose-dependent manner with an EC50 value of 5.4 nM for inositol trisphosphate formation. The protein kinase C-activator phorbol ester dose-dependently inhibited endothelin-induced phosphoinositide turnover and intracellular free Ca2+ increase, suggesting the involvement of protein kinase C in the regulation of endothelin-induced responses. Neither endothelin-induced phosphoinositide hydrolysis nor endothelin-induced increase in intracellular free Ca2+ were affected by pertussis toxin. These data indicate that endothelin receptors are present on NG108-15 cells and the G protein coupled to endothelin receptor for inducing activation of phospholipase C and increase of free intracellular Ca2+ is insensitive to pertussis toxin.
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PMID:Endothelin receptor binding and cellular signal transduction in neurohybrid NG108-15 cells. 166 18

By using aortic adventitial fibroblasts in culture as a model, we first demonstrated that cells derived from spontaneously hypertensive rats (SHR), when compared with Wistar-Kyoto (WKY)-derived cells, possessed an increased capacity to proliferate and to synthesize DNA in response to vasoactive agents. At this early stage of culture, SHR fibroblasts exhibited a higher specific growth rate. Then, to gain insight into the mechanisms which could be responsible for the difference observed, signalling pathways involved in the transduction of the mitogenic signal were analysed in cells cultured for 3 days. Results indicated that, in SHR-derived fibroblasts, an increased phospholipase C activity could account for the higher mitogenic response to thrombin or vasopressin. However, this enzymatic activity, which did not differ when fibroblasts from the two rat strains were stimulated by serum, could not be responsible for the enhanced proliferation rate of SHR-derived cells. Moreover, neither protein kinase C nor pertussis toxin-sensitive G proteins appeared to contribute to the hyperresponsiveness exhibited by SHR fibroblasts. Our results indicate that the mechanism(s) responsible for such a difference vary according to the stimulus; they also suggest that adventitial fibroblasts may participate in the modified reactivity of vascular wall associated with hypertension.
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PMID:Increased proliferation of adventitial fibroblasts from spontaneously hypertensive rat aorta. 166 71

The pressor actions of arginine vasopressin (AVP) were examined in pithed Sprague-Dawley and Wistar-Kyoto (WKY) rats and spontaneously hypertensive rats (SHR). Prior to pithing, systolic blood pressure (SBP) and diastolic blood pressure (DBP) were recorded via an intra-arterial catheter from sodium pentobarbital anaesthetized rats. SBP and DBP recorded from SHR were significantly greater than those from Sprague-Dawley and WKY rats. However, after pithing, there were no significant differences between DBP among the various strains. Pertussis toxin pretreatment significantly reduced the prepithing SBP and DBP of the SHR but not Sprague-Dawley or WKY rats. Administration of nifedipine significantly reduced DBP of pithed rats. The dose-diastolic pressure response curves obtained from infusion of AVP in Sprague-Dawley and WKY rats were not significantly different from one another, but the maximal vasopressor responses to AVP in pithed SHR were enhanced. Administration of nifedipine to Sprague-Dawley and WKY rats did not affect the dose-response curve to AVP, but nifedipine administration in SHR led to a significant inhibition of the pressor responses to AVP. Furthermore, pertussis toxin pretreatment of rats significantly reduced a component of the AVP pressor effect in SHR but not Sprague-Dawley or WKY rats. We speculate that, in SHR, vasopressin receptors are coupled to a pertussis toxin-sensitive G protein that, in turn, may couple to a dihydropyridine-sensitive calcium channel and also to a pertussis-insensitive G protein that is probably coupled to the phospholipase C/intracellular calcium release process. A component of the elevated blood pressure in SHR is also regulated by a pertussis toxin-sensitive process.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pressor actions of arginine vasopressin in pithed Sprague-Dawley, Wistar-Kyoto and spontaneously hypertensive rats before and after treatment with nifedipine or pertussis toxin. 166 82

The cellular distribution (apical vs. basolateral) of parathyroid hormone (PTH) signal transduction systems in opossum kidney (OK) cells was evaluated by measuring the action of PTH on apically located transport processes (Na/Pi cotransport and Na/H exchange) and on the generation of intracellular messengers (cAMP and IP3). PTH application led to immediate inhibition of Na/H-exchange without a difference in dose/response relationships between apical and basolateral cell-surface hormone addition (half-maximal inhibition at approximately 5 x 10(-12) M). PTH required 2-3 hr for maximal inhibition of Na/Pi cotransport with a half-maximal inhibition occurring at approximately 5 x 10(-10) M PTH for basolateral application and approximately 5 x 10(-12) M for apical application. PTH addition to either side of the monolayer produced a dose-dependent production of both cAMP and IP3. Half-maximal activation of IP3 was at about 7 x 10(-12) M PTH and displayed no differences between apical and basolateral hormone addition, while cAMP was produced with a half maximal concentration of 7 x 10(-9) M for apical PTH application and 10(-9) M for basolateral administration. The PTH analog [nle8.18,tyr34]PTH(3-34), (nlePTH), produced partial inhibition of Na/Pi cotransport (agonism) with no difference between apical and basolateral application. When applied as a PTH antagonist, nlePTH displayed dose-dependent antagonism of PTH inhibition of Na/Pi cotransport on the apical surface, failing to have an effect on the basolateral surface. Independent of addition to the apical or basolateral cell surface, nlePTH had only weak stimulatory effect on production of cAMP, whereas high levels of IP3 could be measured after addition of this PTH analog to either cell surface. Also an antagonistic action of nlePTH on PTH-dependent generation of the internal messengers, cAMP and IP3, was observed; at the apical and basolateral cell surface nelPTH reduced PTH-dependent generation of cAMP, while PTH-dependent generation of IP3 was only reduced by nlePTH at the apical surface. Pertussis toxin (PT) preincubation produced an attenuation of both PTH-dependent inhibition of Na/Pi cotransport and 1P3 generation while producing an enhancement of PTH-dependent cAMP generation; these effects displayed no cell surface polarity, suggesting that PTH action through either adenylate cyclase or phospholipase C was transduced through similar sets of G-proteins at each cell surface.
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PMID:Apical and basolateral effects of PTH in OK cells: transport inhibition, messenger production, effects of pertussis toxin, and interaction with a PTH analog. 166 60

Platelet activation begins with the binding of an agonist to the cell surface and culminates in the events of platelet aggregation, secretion and clot formation. Recent studies have identified two large families of GTP-binding proteins in platelets that are thought to participate in the events of platelet activation. The first of these are the G proteins, heterotrimeric proteins which are best known for their ability to mediate the interaction between agonist receptors and intracellular enzymes such as adenylyl cyclase, phospholipase C and phospholipase A2. To date, at least six G proteins have been identified in platelets: Gs, Gz, three variants of Gi and either Gq or G11 (or both). An additional, pertussis toxin-resistant G protein, Gq, may also be present. The second group of GTP-binding proteins present in platelets is substantially smaller than the heterotrimeric G proteins, ranging in size from 21 to 28 kDa. At least 15 such low molecular weight GTP-binding proteins have been identified in platelets, many of which are homologous to the products of the ras proto-oncogenes. In cells other than platelets, low molecular weight GTP-binding proteins have been implicated in protein transport, cell activation events and malignant transformation. Their role in platelets is unknown.
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PMID:The role of GTP-binding proteins in platelet activation. 166 93

In a variety of cells and tissues, platelet activating factor (PAF) stimulates phospholipase C catalyzed breakdown of phosphoinositides. This results in the generation of the second messengers, inositol trisphosphate and diglyceride. This process occurs independently of extracellular Ca2+. A number of PAF structural analogues, receptor antagonists and drugs have been utilized to pharmacologically probe the activation of phospholipase C. PAF stimulation of the phosphoinositide turnover was shown to be sensitive to pertussis toxin in some systems, but not in others. The involvement of guanine nucleotide binding protein(s) and tyrosine kinase(s) in this process have also been postulated. These developments give new insights into PAF-receptor function at the molecular level, and also provide leads towards a better understanding of the cellular responses to PAF.
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PMID:Inositol phospholipid turnover in PAF transmembrane signalling. 166 2

Platelet activating factor (PAF) was found to stimulate the metabolism of inositol phospholipids via deacylation and phospholipase C in Kupffer cells, the resident macrophages in liver. PAF-induced phosphoinositide metabolism occurred in two phases. Within seconds after stimulation, in the absence of extracellular Ca++, platelet activating factor caused the phosphodiester hydrolysis of phosphatidylinositol 4,5-bisphosphate and phosphatidylinositol 4-phosphate with the release of inositol 1,4,5-trisphosphate and inositol 1,4-bisphosphate. This was followed by an extracellular Ca(++)-dependent release of glycerophosphoinositol, inositol monophosphates and inositol bisphosphates. Various Ca(++)-mobilizing agonists failed to evoke hydrolysis of phosphoinositides. Platelet activating factor also stimulated the synthesis and release of prostaglandins from these cells. Platelet activating factor-stimulated phosphodiester metabolism of phosphoinositides and prostaglandin synthesis was inhibited by treatment with pertussis toxin and cholera toxin. Pertussis toxin also inhibited platelet activating factor-induced glycerophosphoinositol release. Cholera toxin, in contrast, stimulated platelet activating factor-induced glycerophosphoinositol release and prostaglandin synthesis and synergistically stimulated the effect of platelet activating factor on these processes. The results suggest that platelet activating factor-induced metabolism in the Kupffer cells occurs via specific receptors and may be mediated through the activation of different G-proteins.
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PMID:PAF effects on transmembrane signaling pathways in rat Kupffer cells. 166 3

The role of pertussis toxin-sensitive guanine nucleotide regulatory proteins (G-proteins) in the signal transduction process(es) involved in postjunctional vascular alpha 1-adrenoceptor-mediated vasoconstriction produced by the full agonist, cirazoline, and the partial agonist, (-)-dobutamine, have been investigated in the cardiovascular system of the pithed rat. Pertussis toxin pretreatment (50 micrograms/kg, iv, 3 days prior to experimentation) only slightly inhibited the pressor response of cirazoline, and the degree of inhibition produced by pertussis toxin was roughly equivalent to the inhibition produced by the calcium channel antagonist, nifedipine (1 mg/kg, ia). In contrast, pertussis toxin pretreatment produced marked inhibition of the alpha 1-adrenoceptor-mediated pressor response to the partial agonist, (-)-dobutamine, and this large degree of inhibition was qualitatively and quantitatively similar to the degree of inhibition produced by nifedipine. The differential pattern of inhibition of full and partial alpha 1-adrenoceptor agonists by pertussis toxin suggests that the vasoconstrictor response of an alpha 1-adrenoceptor partial agonist, which is more dependent upon the translocation of extracellular calcium than a full agonist, as evidenced by its sensitivity to inhibition by nifedipine, involves a pertussis toxin-sensitive G-protein that couples the alpha 1-adrenoceptor to the calcium channel. Furthermore, for alpha 1-adrenoceptor-mediated vasoconstriction by full agonists with high intrinsic efficacy, which involves both intracellular and extracellular pools of calcium, and particularly the former, pertussis toxin only inhibits that component of the alpha 1-adrenoceptor response which is dependent upon the translocation of extracellular calcium, accounting for the limited degree of inhibition of the response to cirazoline by pertussis toxin and by nifedipine. By inference, the other component of the alpha 1-adrenoceptor-mediated pressor response to a full agonist, which is dependent upon the mobilization of intracellular stores of calcium through a process believed to involve the activation of phospholipase C, likely utilizes a pertussis toxin insensitive G-protein that is distinct from that which we propose couples the alpha 1-adrenoceptor to the calcium channel. We conclude, therefore, that the alpha 1-adrenoceptor in the vasculature of the pithed rat may be coupled to 2 distinct G-proteins, only one of which is sensitive to inhibition by pertussis toxin and links the alpha 1-adrenoceptor to the membrane calcium channel, and which may be utilized by both full agonists and partial agonists.
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PMID:The effect of pertussis toxin on alpha 1-adrenoceptor-mediated vasoconstriction by the full agonist, cirazoline, and the partial agonist, (-)-dobutamine, in pithed rats. 167 94

In the murine cell line LBRM-331A5, phytohemagglutinin (PHA) induces secretion of the T cell growth factor interleukin 2 (IL2). IL1 augments PHA-induced IL2 production. In this cell line, PHA stimulates a number of biochemical changes including phospholipid hydrolysis, increases in cytosolic free calcium [( Ca2+]i), membrane hyperpolarization, cytosolic alkalinization, and tyrosine phosphorylation of specific substrates. Using LBRM cells, we have studied the interrelationship between these events and the secretion of IL2. Increases in [Ca2+]i triggered by PHA or following addition of ionomycin result in membrane hyperpolarization but are not required for PHA-induced cytosolic alkalinization or tyrosine phosphorylation. Addition of IL1 to PHA-stimulated cells did not affect any of the biochemical parameters, although it significantly augmented PHA-induced IL2 secretion. Increasing [Ca2+]i with ionomycin did not trigger IL2 secretion, increases in cytosolic pH, or tyrosine phosphorylation in the presence or absence of IL1. Preventing increases in cytosolic pH did not alter PHA-induced changes in [Ca2+]i or membrane potential. These data are compatible with PHA including activation of phospholipase C and production of inositol phosphates resulting in both release of Ca2+ from internal stores and transmembrane uptake of Ca2+ as well as activation of protein kinase C. However, unlike other growth factor or mitogen-stimulated systems, the changes stimulated by PHA and IL1 in LBRM cells including IL2 secretion are not regulated by a pertussis toxin-sensitive G protein.
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PMID:Interrelationship between signals transduced by phytohemagglutinin and interleukin 1. 169 Feb 13


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