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)

Cetyltrimethylammonium and n-octadecyldimethylsulfonium bromides inhibit the Clostridium perfringens phospholipase C-catalyzed hydrolysis of 1-S-phosphocholine-2-O-hexadecanoyl-1-mercapto-2-ethanol (1) at pH 7.5, 37 degrees C, mu = 0.15 with KCl. Mixed micelles containing 1 and either inhibitor are substrates for the enzyme and the fraction of activity remaining is a monotonic, but non-linear function of the mole fraction of inhibitor. Simple saturation kinetics are observed as the concentration of 1 is increased in mixed micelles containing a constant mole fraction of inhibitor. Inhibition constants for cetyltrimethylammonium and n-octadecyldimethylsulfonium bromides are 0.66 +/- 0.04 and 0.25 +/- 0.02 mM, respectively. The data suggest that the significant inhibition previously observed for soluble alkyldisulfonium salts (K50 for dodecamethylene-bis(dimethylsulfonium) bromide, 27 microM) is dependent upon bifunctional cationic interactions rather than hydrophobic binding.
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PMID:Inhibition of the Clostridium perfringens phospholipase C hydrolysis of a thiophosphate analog of lysophosphatidylcholine by micelle-bound ammonium and sulfonium cations. 180 98

MCH (melanin concentrating hormone) is a heptadecapeptide, Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val, which stimulates melanosome (melanin granule) aggregation to a perinuclear position within teleost fish integumental melanocytes, resulting in lightening of the skin. The mechanisms of action of MCH are unknown. Drugs that affect the diacylglycerol/inositol triphosphate pathway were used to investigate the possible roles of this pathway in the mechanisms of action of MCH on Synbranchus marmoratus (teleost) melanocytes. The shift of the dose-response curve to MCH in the presence of various concentrations of 4-bromophenacyl bromide and neomycin sulphate, phospholipase C inhibitors, suggests that phospholipase C is stimulated after MCH receptor activation. Low concentrations (10(-9) to 10(-8) M) of the phorbol ester TPA exhibited MCH-like activity, eliciting a dose-dependent melanosome aggregation. Higher doses, however, displaced to the right the dose-response curve to MCH, as did the protein kinase C inhibitors, dibucaine and 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7). These results support the assumption that protein kinase C mediates the pigment aggregating activity of MCH. Both MCH and norepinephrine lightening actions were abolished by beta-glycerophosphate, a phosphatase inhibitor, suggesting that a protein dephosphorylation occurs during melanosome aggregation, and is, therefore, a common event triggered by MCH and norepinephrine, although both agonists act through separate receptors and exhibit different transduction mechanisms.
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PMID:Protein-kinase C mediates MCH signal transduction in teleost, synbranchus marmoratus, melanocytes. 194 11

A non-hydrolyzable phosphonate analogue of phosphatidyl inositol, racemic myo-inosityl-(1)-5-oxa-16-trifluoroacetamidohexadecyl phosphonate, was synthesized. This phosphonate inhibited the activity of phosphatidyl inositol-specific phospholipase C (PI-PLC) from Bacillus cereus with an IC50 of approximately 10 mM. Removal of the trifluoroacetyl blocking group followed by covalent binding of the phosphonate to cyanogen bromide activated Sepharose 4B via the amino group produced an affinity matrix specific for the PI-PLC from B. cereus. This affinity matrix was used to purify the phospholipase C from a complex mixture of proteins in a single step. Competition experiments with myo-inositol in the elution medium indicated that specific binding of the enzyme to the matrix most likely involves the enzyme active site. The inositol phosphonate derivatized matrix was stable over several months in neutral and alkaline media and was used repeatedly without loss of binding capacity. These results show that affinity matrices employing myo-inositol phosphonate ligands are useful for isolation and binding studies of PI-PLC and possibly of other enzymes interacting with phosphoinositides or myo-inositol phosphate derivatives.
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PMID:Preparation and application of an affinity matrix for phosphatidylinositol-specific phospholipase C. 196 11

The effects of cardiotoxin fractions from Naja naja kaouthia and Naja naja atra snake venoms and synthetic melittin peptide were examined on lipolytic activity in red blood cells and primary skeletal muscle cultures. Both native cardiotoxin fractions caused considerable production of free fatty acids in red blood cells. This production was abolished when the fractions were first treated with p-bromophenacyl bromide to reduce the venom phospholipase A2 activity contamination. In equine and human primary cultures of skeletal muscle, the N. n. kaouthia cardiotoxin (10 microM) and melittin (2 microM) caused a breakdown of phospholipids and production of free fatty acids and diacylglycerol in the absence of lysophospholipid formation. Additionally, melittin at higher concentrations (10 microM) caused triglyceride breakdown. These studies do not support the suggestion that snake venom cardiotoxins and melittin selectively activate endogenous phospholipase A2 activity. Instead, the toxins primarily activate endogenous phospholipase C activity and, in the case of melittin at high concentrations, triglyceride lipase activity.
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PMID:Snake venom cardiotoxins and bee venom melittin activate phospholipase C activity in primary cultures of skeletal muscle. 205 59

We have previously characterized a hormonally regulated soluble form of phospholipase A2 (PLA2) in the cultured renal mesangial cell which is similar and possibly identical to the major form in rat kidney. In an attempt to further characterize the mechanisms of regulation of this enzyme we have used epidermal growth factor (EGF), which does not activate polyphosphoinositide-specific phospholipase C in these cells. EGF-enhanced PLA2 activity as assayed by the ability of the soluble extracts of cells to cleave arachidonic acid from the sn-2 position of phosphatidylcholine and phosphatidylethanolamine. This represents a direct demonstration of EGF-induced PLA2 activation which is preserved in a cell-free extract. Phorbol myristate acetate (PMA), as well as 1-oleoyl-2-acetylglycerol, also enhanced PLA2 activity. By contrast, the calcium ionophore A23187 had no effect on extract PLA2 activity. The EGF- and PMA-induced enhanced activity was recovered following fractionation by Mono-Q anion exchange chromatography. The peak of activity comigrated for both agonists, suggesting that both EGF and PMA stimulated the same form of the enzyme. Down-regulation of protein kinase C by pretreatment with PMA resulted in loss of the PMA-induced, but not the EGF-induced, enhancement in PLA2 activity. 8-Bromo-cAMP had no effect upon the PLA2 activity, and did not modulate the EGF effect. Pertussis toxin induced G protein ADP-ribosylation but had no effect upon PLA2 activity, and did not alter the EGF effect. In summary, EGF results in a stable modification of PLA2 activity in glomerular mesangial cells. This enhanced activity is independent of polyphosphoinositide hydrolysis, insensitive to protein kinase C down-regulation, and is not affected by cAMP or pertussis toxin pretreatment of the cells.
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PMID:Epidermal growth factor enhances glomerular mesangial cell soluble phospholipase A2 activity. 210 62

The mechanisms by which phospholipase C from Clostridium perfringens stimulates release of arachidonic acid (AA) in cultured intestinal epithelial cells (INT-407) were investigated. INT-407 cells were first allowed to incorporate 14C-labeled AA into their phospholipids; the labeled cells were then exposed to phospholipase C, and the release of free 14C-AA was determined. Phospholipase C caused a rapid (3 min) intracellular rise of free 14C-AA, followed by a considerable, dose- and time-dependent release of 14C-AA into the extracellular medium. For comparison, the calcium ionophore A23187 also caused a rapid mobilization of free 14C-AA, but a much lower extracellular 14C-AA release than phospholipase C during longer (1 h) incubation. The 14C-AA release was accompanied by a degradation of 14C-myo-inositol-labeled phosphatidylinositols and was reduced by the protein kinase C inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7). Both phospholipase C- and A23187-stimulated 14C-AA release was associated with degradation of phosphatidylcholine, phosphatidylethanolamine, and phosphatidylinositol and was reduced by nordihydroguaiaretic acid and 4-bromophenacyl bromide, two known phospholipase A2 inhibitors. In addition, the 14C-AA release was reduced by the calmodulin inhibitors trifluoperazine, compound 48/80, and N-(6-aminohexyl)-5-chloro-1-naphthalene-sulfonamide (W-7). These findings indicate that phospholipase C from C. perfringens stimulates phospholipase A2-mediated AA release from human intestinal epithelial cells and suggest that this stimulation is brought about via processes involving phosphatidylinositol breakdown and activation of calmodulin and protein kinase C. It is possible that this phospholipase C-evoked AA release may contribute to the mucosal pathologic condition in diseases with altered intestinal microbial flora.
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PMID:Phospholipase C from Clostridium perfringens stimulates phospholipase A2-mediated arachidonic acid release in cultured intestinal epithelial cells (INT 407). 211 Jun 84

A method for studying the mobilization of free arachidonic acid (AA) in viable isolated human intestinal epithelial cells has been developed and applied to the study of patients with Crohn's disease. Cells were isolated from morphologically unaffected parts of the distal ileum and incubated with 14C-AA; most of the incorporated 14C-AA was then found in phospholipids (mainly phosphatidylcholine) and in a pool of neutral lipids (mainly triacylglycerols). Cells from patients with Crohn's disease incorporated more 14C-AA into their neutral lipids than did cells from control patients. When the labeled cells were stimulated with phospholipase C from Clostridium perfringens or with the calcium ionophore A23187, they released significant amounts of AA, mainly from phosphatidylcholine. There was no difference between cells from Crohn patients and controls in the 14C-AA amounts released, but unstimulated and phospholipase C-stimulated cells from prednisolone-treated Crohn patients released less AA than cells from control patients. The A23187-stimulated AA release was completely inhibited by the phospholipase A2 inhibitor 4-bromophenacyl bromide, whereas the phospholipase C-stimulated release was not. These findings suggest that AA release in human small-intestinal epithelial cells may be caused by calcium-mediated phospholipase A2 activation or by products of microbial phospholipase C activity and that prednisolone reduces the mobilization of free AA in intestinal epithelial cells. They also illustrate the potential use of isolated epithelial cells for revealing mechanisms underlying AA release in the intestinal mucosa in different disease states.
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PMID:Phospholipase activation and arachidonic acid release in intestinal epithelial cells from patients with Crohn's disease. 227 37

Effects of extracellularly applied ATP (added as disodium salt) on stimulus-secretion coupling were investigated in clonal insulin-producing RINm5F cells. Cytoplasmic free Ca2+ concentration [( Ca2+]i), electrical activity, membrane potential, formation of InsP3 and insulin release were measured. Addition of ATP in a Ca2(+)-containing medium promoted a rapid rise in [Ca2+]i, which was followed by a slow decline towards the basal level. In a Ca2(+)-free medium, the ATP-induced increase in [Ca2+]i was smaller, but still enough to elicit insulin secretion. Upon normalization of the extracellular Ca2+ concentration, the response to ATP recovered instantaneously. The presence of glucose in the incubation medium was a prerequisite to obtain a pronounced effect of ATP in the absence of extracellular Ca2+. However, glucose did not enhance the response to ATP in a Ca2(+)-containing medium. The effect of ATP was dose-dependent, with a clearly detectable increase in [Ca2+]i at 1 microM and a maximal response being obtained at 200 microM-ATP. The response to ATP was unaffected by activating adenylate cyclase by forskolin, but was abolished by 10 nM of the phorbol ester phorbol 12-myristate 13-acetate. The effects of ATP on [Ca2+]i could not be accounted for by a generalized increase in plasma-membrane permeability, as evident from the failure of the nucleotide to increase the fluorescence of the nuclear stain ethidium bromide. After stimulation with ATP there was an increase in membrane potential, in both the absence and the presence of extracellular Ca2+. Blockage of the voltage-activated Ca2+ channals with D-600, in a Ca2(+)-containing medium, decreased the effect of ATP on [Ca2+]i slightly. Patch-clamp measurements using the cell-attached patch configuration revealed that the RINm5F cells produce spontaneous action potentials, the frequency of which increased markedly on addition of ATP. Whole-cell recordings demonstrated that the increase in spike frequency was not associated with the development of an inward current, but was rather accountable for by a decrease in the activity of the ATP-regulated K+ channels. Addition of 200 microM-ATP stimulated phospholipase C activity, as evident from the formation of InsP3, both in the absence and in the presence of extracellular Ca2+. Thus in the absence of extracellular Ca2+ the stimulatory effect of ATP on insulin release can be explained by InsP3-induced mobilization of intracellularly bound Ca2+. Hence, in the RINm5F cells extracellular ATP acts in a manner similar to other Ca2(+)-mobilizing agents.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Extracellular ATP increases cytoplasmic free Ca2+ concentration in clonal insulin-producing RINm5F cells. A mechanism involving direct interaction with both release and refilling of the inositol 1,4,5-trisphosphate-sensitive Ca2+ pool. 240 36

The release of free arachidonic acid (AA) in cultured intestinal epithelial cells (INT 407) was investigated. INT-407 cells were first incubated overnight with radiolabeled 14C-AA, and most of the incorporated 14C-AA esterified into phosphatidylethanolamine, phosphatidylcholine, and phosphatidylinositol. Labeled cells were then exposed to different stimulating agents and the release of free 14C-AA determined. The calcium ionophore A23187 caused a dose-dependent AA release that was preceded by a rapid uptake and a subsequent efflux of 45Ca2+. By contrast, phospholipase C from Clostridium perfringens caused a great AA release that was accompanied by an apparent uptake and a sustained intracellular accumulation of 45Ca2+. The cells alos released AA when exposed to the protein kinase C activator, 4 beta-phorbol-12-myristate-13-acetate (PMA), and this agent, like the diacylglycerol 1-oleoyl-2-acetyl-rac-glycerol, significantly potentiated the AA release caused by A23187. Not only A23187-mediated but also phospholipase C- and PMA-mediated AA release was inhibited by 4-bromophenacyl bromide, a known phospholipase A2 inhibitor. These findings, taken together, indicate that AA release in intestinal epithelial cells can be caused by (i) Ca2+-mediated phospholipase activation, (ii) products of phospholipase C activity, and (iii) stimulation of protein kinase C. It is suggested, therefore, that AA release in intestinal epithelial cells is governed by intracellular Ca2+, protein kinase C-mediated protein phosphorylation, and activation of phospholipase A2.
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PMID:Phospholipase activation and arachidonic acid release in cultured intestinal epithelial cells (INT 407). 250 36

The present studies were conducted to determine the effects of gonadotropins (LH and hCG) and prostaglandin F2a (PGF2a) on the production of "second messengers" and progesterone synthesis in purified preparations of bovine small luteal cells. Corpora lutea were removed from heifers during the luteal phase of the normal estrous cycle. Small luteal cells were isolated by unit-gravity sedimentation and were 95-99% pure. LH provoked rapid and sustained increases in the levels of [3H]inositol mono-, bis-, and trisphosphates (IP, IP2, IP3, respectively), cAMP and progesterone in small luteal cells. LiCl (10 mM) enhanced inositol phosphate accumulation in response to LH but had no effect on LH-stimulated cAMP or progesterone accumulation. Time course studies revealed that LH-induced increases in IP3 and cAMP occurred simultaneously and preceded the increases in progesterone secretion. Similar dose-response relationships were observed for inositol phosphate and cAMP accumulation with maximal increases observed with 1-10 micrograms/ml of LH. Progesterone accumulation was maximal at 1-10 ng/ml of LH. LH (1 microgram/ml) and hCG (20 IU/ml) provoked similar increases in inositol phosphate, cAMP and progesterone accumulation in small luteal cells. 8-Bromo-cAMP (2.5 mM) and forskolin (1 microM) increased progesterone synthesis but did not increase inositol phosphate accumulation in 30 min incubations. PGF2a (1 microM) was more effective than LH (1 microgram/ml) at stimulating increases in inositol phosphate accumulation (4.4-fold vs 2.2-fold increase for PGF2a and LH, respectively). The combined effects of LH and PGF2a on accumulation of inositol phosphates were slightly greater than the effects of PGF2a alone. In 30 min incubations, PGF2a had no effect on cAMP accumulation and provoked small increases in progesterone secretion. Additionally, PGF2a treatment had no significant effect on LH-induced cAMP or progesterone accumulation in 30 min incubations of small luteal cells. These findings provide the first evidence that gonadotropins stimulate the cAMP and IP3-diacylglycerol transmembrane signalling systems in bovine small luteal cells. PGF2a stimulated phospholipase C activity in small cells but did not reduce LH-stimulated cAMP or progesterone accumulation. These results also demonstrate that induction of functional luteolysis in vitro requires more than the activation of the phospholipase C-IP3/calcium and -diacylglycerol/protein kinase C transmembrane signalling system.
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PMID:Second messenger systems and progesterone secretion in the small cells of the bovine corpus luteum: effects of gonadotropins and prostaglandin F2a. 254 70


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