EC:3.1.4.3 - FACTA Search

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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)

The effect of 10 min ischemia on the activity of phospholipase C acting against [3H]inositol-phosphatidylinositol (PI) and [3H]inositol-phosphatidylinositol 4,5-bisphosphate (PIP2) in the brain subsynaptosomal fractions was investigated. In the presence of endogenous CaCl2, specific activity of phospholipase C acting on phosphatidylinositol was as follows: synaptic cytosol (SC) greater than synaptic vesicles (SV) greater than synaptic plasma membrane SPM). Brain ischemia activated phospholipase C acting on PI by about 60% and 40% in SV and SPM, respectively. The enzyme of synaptic cytosol was not affected by ischemic insult. Phospholipase C acting against PIP2 in the presence of endogenous calcium expressed the specific activity in the following order: SV greater than SPM greater than SC. After 10 min of brain ischemia, activity of phospholipase C acting on PIP2 was significantly suppressed in all subsynaptosomal fractions by about 50-60%. These results indicate that prolonged ischemia produced activation exclusively of phospholipase C acting against phosphatidylinositol.
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PMID:Prolonged ischemia differently affects phospholipase C acting against phosphatidylinositol and phosphatidylinositol 4,5-bisphosphate in brain subsynaptosomal fraction. 255 83

Phosphatidylinositol-specific phospholipase C was characterized in the soluble phase and in membrane fractions prepared from rabbit myocardium. Four subforms of soluble phospholipase C were identified and characterized. Activity of one subform was inhibited 80% when cardiolipin was present in substrate vesicles, whereas three subforms were stimulated 2- to 10-fold by cardiolipin. A cationic subform, molecular mass 67 kDa, was stimulated threefold when cardiolipin comprised 2% of the total phospholipid and fivefold when it comprised 12%. The major mechanism for the cardiolipin effect was a decrease in the apparent Michaelis constant (Km) of this subform for substrate. Competition experiments were consistent with binding of this subform to cardiolipin. Phospholipase C activity was present in mitochondrial, microsomal, and sarcolemmal membrane fractions that were essentially free of contamination by cytosol. Detection of membrane-associated phospholipase C was facilitated by cardiolipin. Thus rabbit myocardium contains multiple subforms of soluble phospholipase C that differ substantially in surface charge, molecular mass, and sensitivity to cardiolipin. Anionic phospholipids may be important determinants of intracellular distribution of phospholipase C in myocardial tissue.
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PMID:Cardiolipin-sensitive phospholipase C in subcellular fractions of rabbit myocardium. 259 87

The cellular regulation of diphtheria toxin cell surface receptors was studied. Treatment of Vero cells with cycloheximide reduced their diphtheria toxin binding capacity, while cells treated with actinomycin D did not lose their ability to bind diphtheria toxin. A non-toxic analogue of diphtheria toxin, CRM 197, produced a dose-related depletion of cell surface diphtheria toxin binding capacity that was reversible upon washing the cells. Vero cells depleted of toxin receptors by CRM 197 did not restore their ability to bind diphtheria toxin in the presence of cycloheximide. Phospholipase C treatment of Vero cells reduced their diphtheria toxin binding capacity in a dose-dependent manner. The loss of diphtheria toxin binding capacity was recovered within 2 hr after removal of the enzyme. Protein synthesis inhibition blocked this recovery while actinomycin D partially inhibited it. Receptors prebound with toxin were resistant to phospholipase C treatment, suggesting that the action of the enzyme was directly on the receptor. Inhibition of glycosylation with tunicamycin did not prevent reappearance of toxin receptors after CRM 197 or phospholipase C treatment. These data establish the requirement of a continuous protein synthesis for the maintenance of diphtheria toxin cell surface receptors and also suggest that these receptors do not recycle after binding ligand. A hypothesis is put forward that the diphtheria toxin receptor might be a lipid-linked cell surface protein.
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PMID:Cellular regulation of diphtheria toxin cell surface receptors. 262 78

Previous studies from our laboratory have shown that platelets from both spontaneously hypertensive rats and essential hypertensive patients exhibited an increased thrombin-triggered phospholipase C activity compared with normotensive subjects. In order to determine the relationship between phospholipase C and hypertension we investigated this enzymatic activity in Dahl salt-resistant (Dahl R/Jr) and salt-sensitive (Dahl S/Jr) rats fed either a low- or a high-NaCl diet, and in DOCA-NaCl hypertensive rats. Phospholipase C activity was increased in the Dahl S/Jr rats fed a high-NaCl diet compared to a low-NaCl diet. This difference was not observed in the Dahl R/Jr rats, irrespective of diet. Likewise, phospholipase C activity was similar in the DOCA-NaCl hypertensive rats compared with their controls. Our results indicate that the increased platelet phospholipase C activity was not a consequence of either the blood pressure elevation or the high NaCl intake and was probably of genetic origin. While the increased phospholipase C activity was not correlated with blood pressure, the enhanced enzymatic activity in Dahl S/Jr hypertensive rats may be involved in the elevation of blood pressure and may be NaCl-regulated.
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PMID:Salt-induced and spontaneous hyperactivity of phospholipase C in primary hypertension. 263 92

Activation of vascular smooth muscle by angiotensin II results in the phospholipase C-mediated generation of two second messengers, inositol trisphosphate (IP3) and diacylglycerol (DG). IP3 is responsible for mobilizing calcium from endoplasmic reticulum whereas DG activates protein kinase C and ultimately Na+/H+ exchange, leading to intracellular alkalinization. The IP3/calcium signal is transient, most likely serving to initiate calcium-mediated events leading to contraction, and is attenuated by activation of protein kinase C. DG formation/protein kinase C activation is sustained and may be enhanced by the concurrent intracellular alkalinization. The delay in induction of the sustained response appears to be related to cellular processing of the angiotensin II-receptor complex. Phospholipase C activity is also modulated by a cholera toxin-sensitive, pertussis toxin-insensitive guanine nucleotide regulatory protein. This guanine nucleotide regulatory protein, movement of the receptor-ligand complex, and the signals generated by the two second messengers, IP3 and DG, interact in a complex manner to cause an integrated response of vascular smooth muscle to angiotensin II stimulation.
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PMID:Angiotensin II stimulation of vascular smooth muscle cells. Secondary signalling mechanisms. 267 2

Luteinizing hormone releasing hormone agonist, [(imBzl)-DHis6,Pro9,NEt]-LHRH (LHRH-A), caused a two to threefold increase in in vitro testosterone (T) secretion by rat Leydig cells. This LHRH-A-induced T secretion was completely blocked by quinacrine and chloroquine, inhibitors of phospholipase A2. Addition of phospholipase A2, however, was ineffective in stimulating basal or LHRH-A-induced T secretion. Phospholipase C, on the other hand, significantly stimulated both basal and LHRH-A-induced T secretion. Exogenously added arachidonic acid stimulated basal T secretion in a dose dependent manner, the maximum increase being about 100% over basal at a dose of 100 microM. Higher doses of arachidonic acid had no stimulatory effect. In the presence of LHRH-A, the stimulatory effect of arachidonic acid was additive up to a concentration of 100 microM; but higher concentrations of arachidonic acid (200 microM) were inhibitory. LHRH-A-induced steroidogenesis was inhibited by 5, 8, 11, 14 Eicosatetraynoic acid (ETYA), an inhibitor of all the three known pathways of arachidonic acid metabolism, and by nordihydroguaiaretic acid, and inhibitory of the lipoxygenase pathway of arachidonic acid metabolism. LHRH-A-stimulated T secretion was not inhibited by indomethacin, an inhibitor of the cyclo-oxygenase pathway of arachidonic acid metabolism. ETYA inhibited arachidonic acid-induced T secretion. Nordihydroguaiaretic acid, on the other hand, augmented basal, arachidonic acid-, phospholipase C-, or phorbol 12, myristate 13 acetate-induced testosterone secretion. These results suggest that arachidonic acid, whose release is influenced by phospholipase C, is involved in LHRH-A-induced T secretion by rat Leydig cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of LHRH-stimulated steroidogenesis in rat Leydig cells: lipoxygenase products of arachidonic acid may not be involved. 269 6

The effect of N-acetylimidazole, tetranitromethane, maleic anhydride and N-ethylmaleimide on various biological activities of Clostridium perfringens alpha (alpha)-toxin was investigated. Treatment of the toxin with N-acetylimidazole, tetranitromethane or maleic anhydride resulted in significant reduction of lethal, hemolytic and platelet-aggregating activities and phospholipase C activity (EY activity), as measured by increased turbidity in egg yolk emulsions. However, EY activity was more resistant to these reagents than lethal, hemolytic or aggregating activities. Phospholipase C activity (PN activity) as measured by hydrolysis of p-nitrophenylphosphorylcholine was retained after treatment with N-acetylimidazole, tetranitromethane or maleic anhydride. The activities of the toxin were not inactivated by treatment with N-ethylmaleimide. These data suggest that alpha-toxin contains multiple sites for biological activities of the toxin.
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PMID:Dissociation of various biological activities of Clostridium perfringens alpha toxin by chemical modification. 272 24

We report that a 100 residue segment in the carboxy-terminus half of phosphatidylinositol-specific phospholipase C is similar to a segment in the amino-terminus half of protein kinase C. The computer-based comparison score is 9.5 standard deviations higher than that of 2500 comparisons of randomized sequences of these segments (P = 10(-21), suggesting that the two segments have similar biological properties. Phospholipase C has a segment that is homologous to part of the non-catalytic domain of src kinase and other tyrosine protein kinases. The similarity of phospholipase C with protein kinase C, a serine/threonine kinase suggests that novel exon shuffling occurred among serine/threonine and tyrosine kinases and phospholipase C.
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PMID:Similarity between phospholipase C and the regulatory domain of protein kinase C. 274 13

We studied the cholinergic stimulation of isolated and enriched rat parietal cells. H+ production was indirectly measured by the uptake of 14C-aminopyrine into the parietal cells. Stimulation by carbachol required the presence of extracellular Ca2+ not only in the initial phase but also during the sustained phase of a 100-min incubation period. The response to carbachol was prevented by the Ca2+ entry blocker lanthanum IC50: 1.5 X 10(-7) mol/l). Furthermore, the dependence on Ca2+ influx of cholinergic stimulation was demonstrated by a 269% increase in total intracellular Ca2+ in response to carbachol, as determined by optical emission spectrometry. The naphthalene sulfonamides W7 and W5 which bind calmodulin and thus block the intracellular transduction of Ca2+ effects also inhibited a carbachol-induced H+ production. In the following experiments we studied the effect of agents which activate the protein kinase C, an enzyme which is supposed to play a key role in intracellular signal transduction of Ca2+-dependent effects. Phospholipase C is supposed to activate protein kinase C via induction of the phosphoinositol breakdown. In our preparation of isolated rat parietal cells, phospholipase C (4-100 mU/ml) exerted inhibition instead of amplification of the response to 10(-4) mol/l carbachol. Similarly, the direct activation of protein kinase C by 12-O-tetradecanoylphorbol-13-acetate or by 1-oleoyl-2-acetyl-sn-glycerol (both tested at 10(-7) to 10(-5) mol/l) reduced the submaximal and maximal response to 10(-5) or 10(-4) mol/l carbachol. We conclude that the cholinergic stimulation of rat parietal cells is dependent on the influx of extracellular Ca2+. Calmodulin seems to mediate intracellular Ca2+ effects during cholinergic stimulation. The activation of protein kinase C impairs carbachol-induced H+ production instead of augmenting the response. This might be due to an already maximal activation of protein kinase C by carbachol alone or to autoregulatory down-regulation by the protein kinase C of muscarinic parietal-cell receptors.
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PMID:Cholinergic stimulation of isolated rat parietal cells: role of calcium, calmodulin and protein kinase C. 280 65

The dependence of phospholipase C activity on the cytosolic Ca2+ concentration ([Ca2+]i) was studied in intact liver cells treated with the Ca2+-mobilizing hormone vasopressin, or not so treated. Phospholipase C (PLC) activity was estimated from the formation of [3H]inositol trisphosphate (InsP3) and the degradation of [3H]phosphatidylinositol 4,5-bisphosphate (PtdInsP2). The [Ca2+]i of the cells was clamped from 29 to 1130 nM by quin2 loading. This wide concentration range was obtained by loading the hepatocytes with a high concentration of the Ca2+ indicator in low-Ca2+ medium or by using the Ca2+ ionophore ionomycin in medium containing Ca2+. In resting cells, in which [Ca2+]i was 193 nM, treatment with 0.1 microM-vasopressin which stimulates liver PLC maximally, tripled InsP3 content and raised [Ca2+]i to 2 microM within 15 s. Lowering [Ca2+]i partially decreased cell InsP3 content as well as the ability of vasopressin to stimulate InsP3 formation maximally. At 29 nM, the lowest Ca2+ concentration obtained in isolated liver cells, basal InsP3 content was 64% of that measured in control cells. Addition of vasopressin no longer affected [Ca2+]i, but significantly increased InsP3 by 200%, although less than in the controls (300%). The maintenance of the greater part of the PLC response at constant [Ca2+]i indicated that, in the liver, InsP3 formation does not result from an increase in [Ca2+]i. The effects of lowering [Ca2+]i were reversible. When low cell [Ca2+]i was restored to a normal value, resting InsP3 content and the ability of vasopressin to stimulate InsP3 formation maximally by 300% were also restored. Raising [Ca2+]i from 193 to 1130 nM had little effect on the InsP3 content or the vasopressin-mediated increase in InsP3. In agreement with the stimulation of PLC activity by vasopressin, cell [3H]PtdInsP2 and total PtdInsP2 were degraded by application of this hormone for 15 s. In contrast, when [Ca2+]i was lowered to 29 nM, basal [3H]PtdInsP2 and total PtdInsP2 were increased by about 30%, [3H]PtdInsP2 was further increased by vasopressin, but total PtdInsP2 was not changed. These results show that, in intact hepatocytes, PLC is little affected by [Ca2+]i concentrations above 193 nM, but is partially dependent on Ca2+ below that value. They suggest that, in addition to activating PLC activity, vasopressin might stimulate PtdInsP2 synthesis, presumably via phosphatidylinositol-phosphate kinase, and that this pathway might predominate in cells with low [Ca2+]i.
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PMID:How far does phospholipase C activity depend on the cell calcium concentration? A study in intact cells. 282 Mar 78

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