EC:3.1.4.3 - FACTA Search

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)

4-Hydroxynonenal is a major product formed by lipid peroxidation from omega 6-polyunsaturated fatty acids as linoleic acid and arachidonic acid. This aldehyde is cytotoxic at high concentrations (in the range of 100 microM), disturbs cell proliferation at low concentrations and exhibits genotoxic effects. Furthermore, in the submicromolar range 4-hydroxynonenal is chemotactic and stimulates phospholipase C. 4-Hydroxynonenal is rapidly metabolized in eucaryotic cells. Here the metabolism of 4-hydroxynonenal was studied in suspensions of Ehrlich mouse ascites cells at different periods of the tumor age. The Ehrlich ascites tumor is a convenient biological model for the investigation of tumor cells in different age and proliferation phases of the tumor. The main products of 4-hydroxynonenal which were identified in the Ehrlich ascites cells were glutathione-HNE-conjugate, hydroxynonenoic acid and 1,4-dihydroxynonene. The formation of glutathione conjugates following the addition of 4-hydroxynonenal was higher in cells of the early phase in comparison with cells of the late phase of tumor growth. That was in accordance with the increased consumption of the reduced form of glutathione during 4-hydroxynonenal utilization. The degradation of 4-hydroxynonenal and other aldehydic products of lipid peroxidation is postulated to be an important part of the intracellular antioxidative defense system.
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PMID:The metabolism of 4-hydroxynonenal, a lipid peroxidation product, is dependent on tumor age in Ehrlich mouse ascites cells. 145 May 80

The effects of 4-hydroxy-2,3-trans-nonenal (HNE) and nonanal on the activity of phosphoinositide-specific phospholipase C of rat neutrophils have been studied in parallel with their action on neutrophil oriented migration. Concentrations of HNE ranging from 10(-7) to 10(-5) M significantly stimulated the oriented migration of rat polymorphonuclear leukocytes. HNE stimulated both the basal and GTP gamma S-induced phospholipase C activity when used at concentrations between 10(-8) and 10(-6) M. Nonanal was devoid both of chemotactic activity and of any action on phospholipase C activity. The effect of GTP gamma S on the stimulation of phospholipase C induced by HNE was higher when the lowest dose of the aldehyde was used; the finding of an additive effect between 10(-8) M HNE and 2 x 10(-5) M GTP gamma S suggests that the two compounds may share a final common pathway of action. These results suggest that the chemotactic activity of HNE might be mediated, like that of other more well-known chemoattractants, by the stimulation of phosphoinositide-specific phospholipase C.
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PMID:Experimental studies on the mechanism of action of 4-hydroxy-2,3-trans-nonenal, a lipid peroxidation product displaying chemotactic activity toward rat neutrophils. 166 Dec 7

The author reviews the problem of the pattern of lipid peroxidation in cancer cells with special reference to a comparison between normal liver cells and hepatomas both transplanted and induced by diethylnitrosamine. It is stated that the loss of lipid peroxidation is proportional to the degree of de-differentiation of hepatoma cells. During carcinogenesis, however, the loss is already evident at the stage of preneoplastic nodules. A common feature of all tumors, independently of the extent of the loss of peroxidation in basal conditions, is the lack of further stimulation by ADP/iron or by ascorbate/iron. As regards the reasons for the decline in lipid peroxidation, they are certainly not unique. An important cause is the low activity of the enzymes of the monooxygenase microsomal chain. Another very important one is the change in lipid composition of membranes, with a marked decrease in polyunsaturated fatty acids, which are the main substrate for lipid peroxidation. It has been shown that enrichment of membranes of hepatomas with arachidonic acid results in restoration of stimulation of peroxidation by ascorbate/iron, but not with ADP/iron. The last type of stimulation mostly reflects the behaviour of the monooxygenase chain, whereas ascorbate/iron-induced stimulation does not require the presence of an efficient cytochrome P450-chain. Another cause for decreased lipid peroxidation in tumors is the increased rigidity of membranes, due to the large increase in cholesterol content: this prevents to some extent the influx of oxygen inside the membranes. Yet another cause is the presence of increased amounts of antioxidants in both cytosol and membranes. The main toxic product of lipid peroxidation, 4-hydroxynonenal, has been found to elicit several actions at extremely low concentrations. In fact, 4-hydroxynonenal stimulates chemotaxis of polymorphonuclear leukocytes, stimulates plasma membrane adenylate cyclase, stimulates plasma membrane guanylate cyclase, and stimulates phospholipase C. The last three enzymes involve the action of G-proteins. The effect of the aldehyde is present at less than micromolar concentrations, which may occur inside the cells in certain conditions. Moreover, at concentrations from 10(-6) to 10(-7) M, the aldehyde is able to block oncogene c-myc expression in the human erythroleukemic K562 cell line, which at the same time becomes able to express the gamma-globin gene. These facts are discussed with reference to a possible biological meaning of the loss of lipid peroxidation in tumors.
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PMID:Lipid peroxidation and cancer: a critical reconsideration. 251 Mar 83

Two novel antibacterial substances (designated mutalipocins) have been isolated from the culture supernatant of Streptoccus mutans strain 32K (serotype c). The mutalipocins were purified by extraction of the culture supernatant with light petroleum (b.p. range 30-60 degrees C), followed by Lobar column chromatography on Lichroprep RP-8. HPLC indicated that both mutalipocin preparations (ML-I and ML-II) were homogeneous. The Mr values of ML-I and ML-II were less than 1000. Both mutalipocins were unaffected by treatment over the pH range 3.0-10.0, or with phospholipase A or proteolytic enzymes, but were partially inactivated by treatment with lipase or phospholipase C. ML-II was resistant to heat treatment. TLC indicated that ML-I and ML-II contained unsaturated, aldehyde and/or ketone, and ester groups. The inhibition of S. mutans by ML-I and ML-II was due to bactericidal, rather than bacteriostatic, activities. The antibacterial spectra of ML-I and ML-II were narrower and more species-specific than those of bacteriocins produced by other Gram-positive bacteria.
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PMID:Biological and biochemical characterization of novel lipid-like antibacterial substances (mutalipocins) produced by Streptoccus mutans strain 32K. 314 62

4-Hydroxynonenal (HNE), a major aldehyde end-product of lipid peroxidation, induces in vitro a rapid stimulation of rat liver PIP2-phospholipase C. At physiological Ca2+ concentration the effect of the aldehyde is strongly potentiated by guanosine thiotriphosphate (GTP gamma S); GPT gamma S; at higher Ca2+ levels the acceleration of PIP2 breakdown induced by the aldehyde reaches very high values, but is no longer modulated by the presence of GTP gamma S. As the concentration of the aldehyde used (1 micromolar) can be actually reached in tissues, the effects shown in vitro are likely to occur in vivo.
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PMID:Stimulation of phospholipase C activity by 4-hydroxynonenal; influence of GTP and calcium concentration. 325 Sep 44

Endogenous phospholipid metabolism in stimulated human platelets was studied by phosphorus assay of major and minor components following separation by two-dimensional thin-layer chromatography. This procedure obviated the use of radioactive labels. Extensive changes were found in quantities of phosphatidylinositol (PI) and phosphatidic acid (PA) as a consequence of thrombin or collagen stimulation. Thrombin addition was followed by rapid alterations in the amount of endogenous PI and PA. The decrease in PI was not precisely reciprocated by an increase in PA when thrombin was the stimulus. This apparent discrepancy could be explained by removal of a transient intermediate in PI metabolism, such as diglyceride, formed by PI-specific phospholipase C (Rittenhouse-Simmons, S., J. Clin. Invest.63: 580-587, 1979). Diglyceride would be unavailable for PA formation by diglyceride kinase, if hydrolyzed by diglyceride lipase (Bell, R. L., D. A. Kennerly, N. Stanford, and P. W. Majerus. Proc. Natl. Acad. Sci. U. S. A.76: 3238-3241, 1979) to yield arachidonate for prostaglandin endoperoxide formation. Thrombin-treated platelets also accumulated lysophospho-glycerides. Specifically, lysophosphatidyl ethanolamines accumulated within 15s following thrombin addition. Fatty acid and aldehyde analysis indicated phospholipase A(2) activity, with an apparent preference for diacyl ethanolamine phosphoglycerides. In the case of collagen, these changes occurred concomitantly with aggregation and consumption of oxygen for prostaglandin endoperoxide formation.THESE STUDIES OF ENDOGENOUS PHOSPHOLIPID METABOLISM PROVIDE INFORMATION SUPPORTING THE EXISTENCE OF TWO PREVIOUSLY POSTULATED PATHWAYS FOR LIBERATION OF ARACHIDONIC ACID FROM PLATELET PHOSPHOLIPIDS: (a) the combined action of PI-specific phospholipase C plus diglyceride lipase yielding arachidonate derived from PI; and (b) a phospholipase A(2) acting primarily on diacyl ethanolamine phosphoglyceride.
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PMID:Phospholipid metabolism in stimulated human platelets. Changes in phosphatidylinositol, phosphatidic acid, and lysophospholipids. 740 Mar 15

The iodoplatinate (IP) reaction, a selective method for visualization of phospholipids, was applied to the predentine and dentine of rat incisors and compared with malachite green aldehyde (MG) fixation/staining. Spot tests indicated (1) that IP specifically stains phospholipids, but not amino acids, displaying as do phospholipids, quaternary ammonium groups; and (2) phosphatidylserine and sphingomyelin were also stained by MGA. Although this reagent is known to interact with phosphorus, phosphoproteins remained unstained. In the rat incisor, an IP-positive network including granules and thin filaments was seen in predentine in the inter-collagen spaces, in many cases closely associated with collagen fibres and their periodic striations. In dentine, positively stained needle-like structures were located along individual collagen fibres, or at the surface of groups of collagen fibres. This staining pattern was unchanged on sections of material pretreated with acetone, whereas the staining was abolished or markedly reduced when the samples were treated either with chloroform/methanol or phospholipase C prior to the IP reaction. Pretreatment of the samples with hyaluronidase promoted subsequent diffusion of the staining. A very similar staining pattern was observed with MGA, in accordance with earlier reports. The present findings validate the histochemical results reported previously on the distribution and potential role(s) of phospholipids in dentine biomineralization.
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PMID:Iodoplatinate visualization of phospholipids in rat incisor predentine and dentine, compared with malachite green aldehyde. 751 28

A HPLC method has been developed to measure phosphatidylcholine (PC) containing reactive carbonyl functions in the sn-acyl residue in order to study processes in which such reactive carbonyls can be formed due to e.g. oxidative fragmentation. The method has been applied to determine PC-bound carbonyls as 2,4-dinitrophenylhydrazones (DNPH) in plasma of burn patients. Plasma from healthy volunteers served as controls. Additionally, in vitro oxidation experiments (A: plasma, buffer diluted; B: plasma + iron-EDTA complex and C: plasma + iron-EDTA complex + H2O2) have been performed to obtain and to identify 2,4-dinitrophenylhydrazine derivatizable carbonyl functions in plasma PC. Both, the PC-aldehydes and PC-aldehyde DNPH derivatives were cleavable with phospholipase C. Quantification was based on thin-layer chromatography purified soybean phosphatidylcholine, which was identically oxidized and derivatized as the plasma lipids in vitro.
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PMID:Oxidatively modified plasma phospholipids containing reactive carbonyl functions measured by HPLC: evidence for phosphatidylcholine-bound aldehydes in plasma of burn patients. 763 63

A comparison has been made between the effects of 4-hydroxy-2,3-trans-nonenal (HNE) and 4-hydroxy-2,3-trans-octenal (HOE), two lipid peroxidation products, on the basal and GTPgammaS-stimulated activities of phosphoinositide-specific phospholipase C (PL-C) of rat polymorphonuclear leukocytes. PL-C activity was determined in vitro by measuring the hydrolysis of [3H] phosphatidylinositol-4,5-bis- phosphate (PtdIns-P2) added as exogenous substrate to neutrophil plasma membranes. PL-C was activated by concentrations of HNE ranging from 10(-8) to 10(-6) M both in the presence and in the absence of 2 x 10(-5) M GTPgammaS; HOE stimulated the enzymatic activity between 10(-11) and 10(-8) M; maximal stimulation was given by 10(-11) M HOE plus GTPgammaS. The aldehyde concentrations able to accelerate PtdIns-P2 breakdown displayed a good correspondence with those which have been reported to stimulate the oriented migration of rat neutrophils. Pretreatment of neutrophils with pertussis toxin prevented the stimulation of PL-C by 10(-11) M HOE and by HOE plus GTPgammaS. Our results suggest that the chemotactic action of HNE and HOE might depend on the activation of PL-C; furthermore a regulatory G protein appears to be involved in the acceleration of PtdIns-P2 turnover by HOE.
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PMID:Activation of phosphoinositide-specific phospholipase C of rat neutrophils by the chemotactic aldehydes 4-hydroxy-2,3-trans-nonenal and 4-hydroxy-2,3-trans-octenal. 783 17

We have reported that peroxisomal beta-oxidation has an anabolic function, supplying acetyl-CoA for biosyntheses of bile acids and phospholipids. Here we deal with its role in the biosynthesis of the subclasses of ethanolamine- and choline-containing phosphoglycerides (EPG, CPG, respectively). Rats were fed for 2 weeks on chow containing 0.25% clofibrate, which inhibits cholesterol and bile acid biosyntheses, but stimulates peroxisomal beta-oxidation. [1-14C]Lignoceric acid, which is exclusively degraded by peroxisomal beta-oxidation to acetyl-CoA, was intravenously injected, and 3 h later the rats were killed. The EPG-rich and CPG-rich fractions were prepared from the liver. When they were treated with phospholipase A2, the radioactivity was predominantly recovered in the 1-radyl group. The radioactivity in EPG was easily dissociated with HCl vapor, and the lipid containing radioactivity was found to be a fatty aldehyde mixture consisting of steary aldehyde (approx. 58%) palmityl aldehyde (approx. 40%) and oleyl aldehyde (approx. 2%). Thus, in the case of EPG, acetyl-CoA from peroxisomal beta-oxidation is incorporated mainly into the 1-alkenyl group of ethanolamine plasmalogen. The radioactivity in CPG, however, was found in fatty alcohol (formed from fatty acid), but not in alkylglycerol after reduction of the fraction with Vitride. Thus, in the case of CPG, acetyl-CoA from peroxisomal beta-oxidation is exclusively incorporated into the 1-acyl group of diacyl glycerophosphocholine, but not into the 1-alkyl group. The above results were supported by the results of phospholipase C treatment. The above data indicate that peroxisomal beta-oxidation plays a role in supplying acetyl-CoA for 1-alkenyl group of plasmalogen-type phospholipid, but this channel may open only to synthesis of EPG, and almost not to CPG.
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PMID:Incorporation of acetyl-CoA generated from peroxisomal beta-oxidation into ethanolamine plasmalogen of rat liver. 785 72

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