Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Using a perfused rat hindleg system, release of tissue-type plasminogen activator (t-PA) from endothelial cells could be induced by platelet-activating factor (PAF), bradykinin, substance P, thrombin, carbachol and A23187, while this release was inhibited by mepacrine and by nor-dihydroguaiaretic acid. The PAF-induced release of t-PA was inhibited by the cytochrome P-450 mono-oxygenase inhibitors, metyrapone, ketoconazole and SKF 525A and by eicosatetraynoic acid but not by indomethacin or BW 755C, suggesting the involvement of epoxygenase products. The PAF-induced release of von Willebrand factor (vWF) was also similarly inhibited by the cytochrome P-450 monooxygenase inhibitor, ketoconazole. Phorbol ester and phospholipase C induced the release of both t-PA and vWF, while phospholipase A2 did not. The release induced by PAF and bradykinin was not influenced by pretreatment with pertussis toxin.
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PMID:The involvement of products of the phospholipase pathway in the acute release of tissue-type plasminogen activator from perfused rat hindlegs. 152 62

Elevations in transmural pressure increase active vascular tone in arteries from most vascular beds, and this myogenic response has been shown to play an important role in the regulation of blood flow in the kidney and other organs. The myogenic response in isolated perfused arteries is associated with depolarization of vascular smooth muscle cells and a rise in intracellular calcium concentration, which is dependent on calcium influx through voltage-sensitive calcium channels. Recent studies have indicated that the myogenic response in renal arteries is associated with the activation of phospholipase C and that arachidonic acid potentiates, whereas inhibitors of cytochrome P-450 and protein kinase C attenuate, this response. Renal arteries produce 20-hydroxyeicosatetraenoic acid (20-HETE) via the cytochrome P-450 pathway when incubated with arachidonic acid. 20-HETE is a potent constrictor of canine and rat renal arterioles. It inhibits K+ channel activity, depolarizes renal vascular smooth muscle cells, and produces a sustained increase in intracellular calcium concentration. In this regard, the vasoconstrictor response to 20-HETE mimics the myogenic activation of renal arteries after elevations in transmural pressure. These studies suggest that the activation of phospholipase C and subsequent increases in the intracellular levels of diacylglycerol, 1,4,5 inositol triphosphate, and cytochrome P-450 metabolites of arachidonic acid may participate in the myogenic response of renal arteries and in the regulation of renal vascular tone.
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PMID:Cellular and ionic signal transduction mechanisms for the mechanical activation of renal arterial vascular smooth muscle. 750 44

In pancreatic acini, administration of the phospholipase C inhibitor, U-73122, abolished Ca2+ oscillations and amylase secretion induced by CCK but had much less effect on the action of CCK analog JMV-180. In contrast, the phospholipase A2 inhibitor, ONO-RS-082, inhibited both Ca2+ spikes and amylase secretion induced by JMV-180, but it had little effect on the action of CCK-8. Both arachidonic acid (AA) and a cytochrome P-450 inhibitor, SKF-96365, generated Ca2+ spikes from the agonist-sensitive pool. AA was capable of releasing Ca2+ from the endoplasmic reticulum (ER), suggesting the direct Ca2+ releasing pathway. There is no evidence of Ca(2+)-induced Ca2+ release (CICR) since neither caffeine, a CICR potentiator, nor ryanodine, a CICR inhibitor, modulated agonist-induced Ca2+ oscillations and Ca2+ release from the ER. On the contrary, increasing concentrations of caffeine abolished agonist-induced Ca2+ spikes. Therefore we have demonstrated that depending on the agonists used, CCK receptor activation may result in the differential involvement of the phosphoinositol and arachidonic acid pathways to mediate calcium oscillation and amylase secretion.
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PMID:Differential involvement of phospholipase A2/arachidonic acid and phospholipase C/phosphoinositol pathways during cholecystokinin receptor activated Ca2+ oscillations in pancreatic acini. 768 62

Studying Swiss 3T3 fibroblasts, we report that arachidonic acid strongly stimulates mRNA levels of the growth-associated immediate early genes c-fos and Egr-1. Structurally related compounds like arachidonic acid methyl ester, arachidonyl alcohol, or eicosatetraynoic acid are ineffective, indicating a specific role of free unesterified arachidonic acid or an arachidonic acid metabolite in c-fos and Egr-1 mRNA accumulation. Blocking the conversion of arachidonic acid to prostaglandins by inhibiting cyclooxygenase abolishes arachidonic acid-induced accumulation of c-fos and Egr-1 mRNA. Inhibition of the lipoxygenase or cytochrome P-450 epoxygenase pathways has no significant effect on arachidonic acid-induced c-fos and Egr-1 mRNA levels, indicating that prostaglandin synthesis is necessary for the increase in c-fos and Egr-1 mRNA. Reversed phase high performance liquid chromatography revealed prostaglandin E2 (PGE2) as the major arachidonic acid metabolite in Swiss 3T3 fibroblasts. When added to the cells, PGE2 stimulates c-fos and Egr-1 mRNA levels to the same degree as arachidonic acid. Also, the inhibition of arachidonic acid-stimulated c-fos and Egr-1 mRNA accumulation by indomethacin is reversed by PGE2. Contrary to reports that PGE2 caused an increase in cAMP levels in Swiss 3T3 fibroblasts, we found that arachidonic acid and PGE2 only minimally increase cAMP levels as compared with untreated cells. In contrast, inhibition of protein kinase C by calphostin C and chelerythrine or down-regulation with phorbol 12-myristate 13-acetate drastically reduces PGE2 and arachidonic acid-induced c-fos and Egr-1 mRNA levels. These data indicate that arachidonic acid exerts its stimulatory effect on c-fos and Egr-1 mRNA via synthesis of PGE2 and subsequent activation of protein kinase C, probably through a PGE2 receptor coupled to phospholipase C.
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PMID:Arachidonic acid increases c-fos and Egr-1 mRNA in 3T3 fibroblasts by formation of prostaglandin E2 and activation of protein kinase C. 796 34

The influence of dietary fat and alcohol on hepatic microsomal levels of cytochromes P-450 2E1, 2B, and 4A; phospholipases A and C; and UDP-glucuronosyltransferase was studied in the intragastric feeding rat model for alcoholic liver injury. Eight groups of animals were evaluated. Control and ethanol fed rats received either saturated fat or corn oil and were killed after 2 weeks and 1 month of feeding. All animals were pair-fed by continuous infusion of liquid diet through permanently implanted gastric cannulas. Alcoholic liver injury developed only in the corn oil-ethanol-fed groups and was manifest by 1 month. Livers were subjected to the following analyses: pathologic evaluation of liver injury; levels of cytochromes P-450 2E1, 2B, and 4A protein and mRNA; aniline hydroxylase activity; and phospholipase A and C and UDP-glucuronosyltransferase activities. Ethanol-induced increases in cytochromes P-450 2E1 and 2B protein determined by Western blotting were greatest in the corn oil-ethanol-fed group, which developed pathologic changes in the liver. Cytochromes P-450 2E1 and 2B1 mRNA levels were unaffected, suggesting that posttranscriptional mechanisms are responsible for the increase in the corresponding P-450 proteins. In contrast, cytochrome P-450 4A levels were higher in the saturated fat-ethanol groups compared with the corn oil-ethanol groups. Phospholipase A and phospholipase C levels were higher in the corn oil-ethanol groups compared with pair-fed dextrose controls and the saturated fat-ethanol groups. UDP-glucuronosyltransferase levels declined with time in the ethanol-fed groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in cytochromes P-450, 2E1, 2B1, and 4A, and phospholipases A and C in the intragastric feeding rat model for alcoholic liver disease: relationship to dietary fats and pathologic liver injury. 797 3

We evaluated the role of changes in microsomal phospholipases (A and C) and arachidonic acid in the intragastric rat feeding model. The experimental animals (male Wistar rats), divided into 4-5 rats/group, were fed the following diets: corn oil and ethanol and corn oil plus dextrose. One set of groups was killed after 2 weeks of feeding, and the second set was killed after 1 month. For each animal, microsomal analysis of cytochrome P-450 2E1 (CYP 2E1) and fatty acids was done. Fourteen animals had analyses of phospholipase C (PLC) and phospholipase A (PLA), and 10 animals had measurements of conjugated dienes. A significant correlation was obtained between the level of CYP 2E1 and the decrease in arachidonic acid (AA) from baseline levels (r = 0.69, p < 0.01). The decrease in AA also correlated with the increase in conjugated dienes (r = 0.70, p < 0.05). PLA and PLC activities were both significantly increased in the corn oil and ethanol groups. The activity of PLC correlated with the decline in AA (r = 0.69, p < 0.01). The correlations noted between the decrease in microsomal AA and CYP 2E1 induction and conjugated diene formation suggest that these processes may be interlinked especially in regard to generation of lipid peroxides that may play a role in alcoholic liver injury.
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PMID:Changes in microsomal phospholipases and arachidonic acid in experimental alcoholic liver injury: relationship to cytochrome P-450 2E1 induction and conjugated diene formation. 833 90

Dopamine-induced natriuretic response which results from the activation of tubular dopamine1 (DA1) receptors is diminished in spontaneously hypertensive rats (SHR). This may be a result of alterations occurring at the receptor level and within the cellular signaling pathway which ultimately causes inhibition of Na+, K(+)-ATPase. There have been reports showing that DA1 receptor induced inhibition of Na+, K(+)-ATPase is abolished in SHR which is due to a decreased activation of PLC and PKC by dopamine. Of the mechanisms, adenylyl cyclase and phospholipase C are two known enzymes linked to DA1 receptors via G proteins. Furthermore, the involvement of phospholipase A2 (PLA2) has also been reported in this process. However, the site of defect in DA1 receptor signaling pathway in SHR is still not well understood. This report will (i) review the coupling of DA1 receptor with G proteins and their levels in Wistar Kyoto (WKY) rats and SHR and (ii) discuss studies dealing with the role of PLA2 in dopamine-induced inhibition of Na+, K(+)-ATPase in WKY rat and SHR kidneys. Fenoldopam, DA1 receptor selective agonist stimulated [35S]GTP gamma S binding in a concentration (10(-9)-10(-4) M)-dependent manner in WKY rats which was attenuated in SHR. Fenoldopam (10 microM)-induced stimulation of [35S]GTP gamma S binding was significantly reduced by a DA1 receptor selective antagonist, SCH 23390 suggesting the involvement of DA1 receptor. Furthermore, the specific antipeptides Gs alpha, and Gq/11 alpha significantly blocked fenoldopam-stimulation of [35S]GTP gamma S binding suggesting the coupling of DA1 receptor with both the G proteins. Western analysis revealed a significant decrease in Gq/11 alpha but no changes in Gs alpha in SHR compared to WKY rats. Dopamine inhibited Na+, K(+)-ATPase activity in a concentration (10(-9)-10(-5) M)-dependent manner in WKY rats while it failed to inhibit the enzyme activity in SHR. Dopamine (10 microM)-induced inhibition in Na+, K(+)-ATPase activity was significantly blocked by mepacrine (a PLA2 inhibitor) suggesting the involvement of PLA2 in dopamine-mediated inhibition of Na+, K(+)-ATPase. Arachidonic acid (AA), a PLA2 product, inhibited Na+, K(+)-ATPase in a concentration (1-100 microM)-dependent manner in WKY rats while the inhibition in SHR was significantly attenuated (IC50: 7.5 microM in WKY and 80 microM in SHR). Furthermore, lower concentration (1 microM) of AA stimulated the enzyme activity in SHR. This suggests a defect in the metabolism of AA in SHR. Proadifen (10 microM), an inhibitor of cytochrome P-450 monoxygenase (an arachidonic acid metabolizing enzyme) significantly blocked the inhibition produced by arachidonic acid in WKY rats and abolished the difference in arachidonic acid inhibition of Na+, K(+)-ATPase between WKY rats and SHR. These data suggest that (i) the reduced activation of G proteins following DA1 receptor stimulation, (ii) reduced amount of Gq/11 alpha and (iii) a defect in the AA metabolism may be responsible for the reduced dopaminergic inhibition of sodium pump activity and a diminished natriuretic response to dopamine in SHR.
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PMID:Dopamine-1 receptor G-protein coupling and the involvement of phospholipase A2 in dopamine-1 receptor mediated cellular signaling mechanisms in the proximal tubules of SHR. 902 41

Raising extracellular Ca2+ (Ca2+o) stimulating the Ca(2+)-sensing receptor (CaR) decreased the activity of the apical 70-pS K+ channel via a cytochrome P-450-dependent mechanism in the thick ascending limb (TAL) of the rat kidney [W. H. Wang, M. Lu, and S. C. Hebert. Am. J. Physiol. 270 (Cell Physiol. 39): C103-C111, 1996]. We have now used the patch-clamp technique and fluorescent dyes to investigate the signaling mechanism by which this effect is produced. Addition of 500 microM gadolinium (Gd3+), an agent which has been shown to activate the CaR (E. M. Brown, G. Gamba, D. Riccardi, M. Lombardi, R. Butters, O. Kifor, A. Sun, M. A. Hediger, J. Lytton, and S. C. Hebert. Nature 366: 575-580, 1993), mimics the inhibitory effect of raising Ca2+o from 1.1 to 5 mM on channel activity. Effects of the high Ca2+o and Gd3+ were abolished by blockade of phospholipase A2 (PLA2) but not by inhibition of phospholipase C (PLC). Raising Ca2+o also increased 20-hydroxyeicosatetraenoic acid production significantly. To investigate the effect of stimulation of the CaR on intracellular Ca2+ (Ca2+i), we used the acetoxymethyl ester of fura 2 to monitor the Ca2+i. Raising Ca2+o from 1.1 to 5 mM increased the Ca2+i significantly from 50 to 150 nM. However, addition of thapsigargin failed to abolish the effect of 5 mM Ca2+o on Ca2+i. Also, application of Gd3+ only slightly increased the Ca2+i, suggesting that elevation of the Ca2+i by high Ca2+o was the result of an influx of Ca2+ rather than enhanced Ca2+ release from Ca2+ stores. That the increase in Ca2+ influx is not mainly responsible for the effect of stimulating the CaR on channel activity is further supported by experiments in which 500 microM Gd3+ inhibited the K+ channel in cell-attached patches in a Ca(2+)-free bath. Furthermore, addition of 500 microM Gd3+ or 5 mM Ca2+o decreased intracellular Na+ measured with fluorescent sodium indicator, suggesting inhibition of Na+ transport. We conclude that PLA2 is involved in the stimulation of the CaR-induced inhibition of apical K+ channels in the TAL.
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PMID:Phospholipase A2 is involved in mediating the effect of extracellular Ca2+ on apical K+ channels in rat TAL. 932 15

Cell pH was monitored in medullary thick ascending limbs to determine effects of ANG II on Na(+)-K+(NH4+)-2Cl- cotransport. ANG II at 10(-16) to 10(-12) M inhibited 30-50% (P < 0.005), but higher ANG II concentrations were stimulatory compared with the 10(-12) M ANG II level cotransport activity; eventually, 10(-6) M ANG II stimulated 34% cotransport activity (P < 0.003). Inhibition by 10(-12) M ANG II was abolished by phospholipase C (PLC), diacylglycerol lipase, or cytochrome P-450-dependent monooxygenase blockade; 10(-12) M ANG II had no effect additive to inhibition by 20-hydroxyeicosatetranoic acid (20-HETE). Stimulation by 10(-6) M ANG II was abolished by PLC and protein kinase C (PKC) blockade and was partially suppressed when the rise in cytosolic Ca2+ was prevented. All ANG II effects were abolished by DUP-753 (losartan) but not by PD-123319. Thus < or = 10(-12) M ANG II inhibits via 20-HETE, whereas > or = 5 x 10(-11) M ANG II stimulates via PKC Na(+)-K+(NH4+)-2Cl- cotransport; all ANG II effects involve AT1 receptors and PLC activation.
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PMID:ANG II controls Na(+)-K+(NH4+)-2Cl- cotransport via 20-HETE and PKC in medullary thick ascending limb. 957 2

We studied hydroxyeicosatetraenoic acid (HETE) release in response to ANG II from preglomerular microvessels (PGMVs), the vascular segment governing changes in renal vascular resistance. PGMVs were isolated from Sprague-Dawley rats and incubated with NADPH and hormones at 37 degrees C. Eicosanoids were extracted, and cytochrome P-450 (CYP)-derived HETEs were purified and quantitated by negative chemical ionization gas chromatography-mass spectroscopy. PGMVs produced primarily 20- and 19-HETEs, namely, 7.9 +/- 1.7 and 2.2 +/- 0.5 ng/mg protein, respectively. ANG II (5 nM) increased CYP-HETE release by two- to threefold; bradykinin, phenylephrine, and Ca(2+) ionophore were without effect. [Sar(1)]ANG II (0.1-100 microM) dose dependently stimulated 19- and 20-HETEs, an effect blocked by the AT(2)-receptor antagonist PD-123319 as well as by U-73122, a phospholipase C inhibitor. Microvascular 20-HETE release was increased more than twofold by the third day in response to ANG II (120 ng. kg(-1). min(-1)) infused subcutaneously for 2 wk; it was not further enhanced after 14 days, although blood pressure continued to rise. Thus an AT(2)-phospholipse C effector unit is associated with synthesis of a vasoconstrictor product, 20-HETE, in a key renovascular segment.
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PMID:Angiotensin II releases 20-HETE from rat renal microvessels. 1096 34


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