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)

Cannabinoids were found to augment phospholipase activities and modify lipid levels of mouse brain synaptosomes, myelin and mitochondria. Delta-1-tetra-hydrocannabinol (delta 1-THC) and several of its metabolites induced a dose-dependent (0.32-16 microM) stimulation of phospholipase A2 (PLA2) activity resulting in the increased release of free arachidonic acid from exogenous [1-14C]phosphatidylcholine (PC). The potencies of the cannabinoids in modulating PLA2 activity were approximately of the order: 7-OH-delta 1-THC greater than delta 1-THC greater than 7-oxo-delta 1-THC greater than delta 1-THC-7-oic acid = 6 alpha OH-delta 1-THC much greater than 6 beta-OH-delta 1-THC. The hydrolysis of phosphatidylinositol (PI) by synaptosomal phospholipase C (PLC) was enhanced significantly by delta 1-THC and promoted diacylglyceride levels by greater than 100 percent compared to control values. In contrast, arachidonate was the major product resulting from phospholipase activities of a 20,000 g pellet. Synaptosomal diacylglyceride lipase activity was inhibited by delta 1-THC. [1-14C]Arachidonic acid was readily incorporated into subcellular membrane phospholipids and after exposure to cannabinoids led to diminished phosphoglyceride levels and concomitant increases in released neutral lipid products. These data suggest that cannabinoids control phospholipid turnover and metabolism in mouse brain preparations by the activation of phospholipases and, through this mechanism, may exert some of their effects.
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PMID:Effects of cannabinoids on the activities of mouse brain lipases. 302 47

The biochemical events initiated by mitogen in T lymphocytes are the subject of this paper. Following interaction of the mitogen with its receptors, a transmembrane 'trigger-type' signal is propagated which has both positive and negative correlates. The negative signal occurs with high mitogen concentrations and is associated with membrane freezing, microtubular aggregation, receptor capping, adenylate cyclase activation, and cellular cyclic AMP increases. The positive signal occurs with optimal mitogen concentrations and is associated with changes in membrane permeability and transport with influx of calcium and potassium ion and efflux of sodium, in transport processes for glucose, amino acids, and nucleosides, and in a collected series of early membrane lipid changes which can be considered essential for the positive signal. These lipid changes include the uptake of arachidonic acid and other fatty acids, choline, phosphate and other molecules, their incorporation into membrane phospholipids, particularly phosphatidylinositol (PI), and a turnover of PI with the production of inositol triphosphate, which can be related to calcium mobilization and diacylglycerol which activates a cytoplasmic protein kinase C. A key event associated with mitogen action is arachidonic acid release. Arachidonic acid may give rise to prostaglandins and thromboxanes as part of negative components of the signal through effects on the adenylate cyclase/cyclic AMP system. Arachidonic acid gives rise to eicosanoids like 5-, 11-, possibly 12- and 15-hydroxyperoxy and hydroxy eicosatetraenoic acids and leukotrienes B4 and C4. The activation of the 5-lipoxygenase, a critical calcium-dependent step, leads via the production of 5-HPETE and 5-HETE to the activation of membrane and soluble guanylate cyclase and the production of cyclic GMP. Cyclic GMP appears to be essential for mitogen activation and is associated with cyclic GMP-dependent protein kinase activation and the phosphorylation of a number of substrates. Calcium ion influx is clearly central to mitogen action. Calcium through its influx and mobilization from cellular stores is thought to contribute directly and indirectly through the action of calmodulin and protein kinase C to the activation of a number of enzymatic processes involved in the positive signal including phospholipase C, diglyceride kinase and lipase, 5-lipoxygenase, and guanylate cyclase. Cyclic GMP and calcium ion both participate in nuclear processes leading to RNA and protein synthesis. Interleukin 2 is associated with midcycle increases in cyclic GMP and entry into DNA synthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transduction of signals in the activation of T lymphocytes: relation to leukemia. 304 Mar 20

Phospholipase activity in the lysosomes of the protozoan Tetrahymena pyriformis strain NT-1 was studied using phospholipids radioactively labeled in the fatty acid moieties. Lysosomal homogenates showed high phospholipase activity with an acidic pH optimum. Unlike the phospholipases in rat liver lysosomes, almost all activity was recovered from the membranous fraction of the lysosomes. The activity was partially solubilized by treatment of the membranes with a detergent or trypsin. Using specifically labeled phospholipids revealed that phospholipase. A1 and C are predominant in Tetrahymena lysosomes, no appreciable phospholipase A2 or lysophospholipase activity was detected in the fraction. There are two catabolic pathways of the hydrolysis of phospholipid: Hydrolysis is initiated by deacylation at the 1-position by phospholipase A1 and the 2-acyllysophospholipid thus formed is successively attacked by (lyso)phospholipase C; hydrolysis is initiated by cleavage of phosphodiester by phospholipase C and the diacylglycerol thus formed is attacked by lipase. Both pathways give the same end products, free fatty acid and 2-monoacylglycerol. The former pathway might be predominant in Tetrahymena lysosomes under physiological conditions since the pathway is independent of detergent. Phospholipases A1 and C activities were partially released into the medium. At least two different phospholipases C are present in the medium as judged by chromatographic behavior and their substrate specificities.
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PMID:Properties of acid phospholipases in lysosome and extracellular medium of Tetrahymena pyriformis. 308 63

The plasma membranes of bovine adrenal chromaffin cells were isolated and the activities of enzymes involved in arachidonic acid liberation were investigated. Only a minute activity of phospholipase A2 (phosphatide 2-acylhydrolase, EC 3.1.1.4) could be detected using externally added phosphatidylcholine (PC) and phosphatidylethanolamine (PE) as substrate. When membranes were treated with exogenous phospholipase C (orthophosphoric acid diester phosphohydrolase, EC 3.1.4.1) there was a liberation of free fatty acids from the sn-2 position of PC. The enzyme responsible for this effect could be demonstrated to be a diacylglycerol lipase (glycerol ester hydrolase, EC 3.1.1.3) localized in the plasma membrane. Using phosphatidylinositol (PI) as a substrate, it was found that an endogenous phospholipase C exists which co-purifies with the membrane preparation. The produced diacylglycerol is subsequently hydrolyzed by diacylglycerol lipase liberating arachidonic acid. The two enzymes, phospholipase C and diacylglycerol lipase were characterized. Phospholipase C was found to be calcium dependent and PI specific, showing an activity of 60 pmol/micrograms protein per h (1.2 mM Ca2+), whereas the diacylglycerol lipase was calcium independent hydrolyzing diacylglycerol at a rate of 7.2 pmol/micrograms protein per h. The lipase but not the phospholipase C was inhibited 50% by 1.7 mM para-bromophenacylbromide.
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PMID:Phospholipase C and diacylglycerol lipase activities associated with plasma membranes of chromaffin cells isolated from bovine adrenal medulla. 308 88

Angiotensin II stimulates prostaglandin (PG) E2 formation in mesangial cells cultured from rat renal glomeruli. The interactions between angiotensin II and PGE2 are important in modulating glomerular function. We examined the mechanism for stimulation of PGE2 production in mesangial cells using the putative diacylglycerol-lipase inhibitor RHC 80267 and trifluoperazine (TFP), an agent interfering with Ca2+-CaM-mediated processes. Although RHC 80267 inhibited diacylglycerol-lipase activity in mesangial cells, it did not influence PGE2 production in response to either angiotensin II or A23187. In contrast, TFP (50 microM) inhibited basal PGE2 production and stimulation by angiotensin II and A23187. TFP also decreased 14C release in response to angiotensin from cells prelabeled with [14C]arachidonic acid, which was associated with inhibition of 14C loss from phosphatidylinositol. In cells prelabeled with 32P, orthophosphate angiotensin II caused a rapid hydrolysis of phosphatidylinositol 4,5-bisphospate. TFP enhanced 32P labeling of phosphatidylinositides, but did not prevent the loss of phosphatidylinositol 4,5-bisphosphate in response to angiotensin. This was verified in cells prelabeled with myo-[3H]inositol where angiotensin stimulated formation of [3H]inositol trisphosphate. TFP enhanced formation of [3H]inositol trisphosphate both under basal- and angiotensin II-stimulated conditions. Thus TFP did not inhibit phospholipase C activation by angiotensin. Angiotensin II caused marked increases in [32P]lysophospholipids, indicating activation of also phospholipase A2. This process was inhibited by TFP. Taken together, these results are consistent with stimulation of both phospholipase C and A2 by angiotensin, the latter step responsible for the release of arachidonic acid and PGE2 formation. The activation of phospholipase A2, but not that of phospholipase C, is inhibited by TFP, perhaps by interference with calmodulin-dependent steps.
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PMID:Angiotensin II stimulates phospholipases C and A2 in cultured rat mesangial cells. 311 Dec 71

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

We have isolated a COOH-terminal tryptic peptide from the hydrophobic globular (5.6 S) form of Torpedo californica acetylcholinesterase that exhibits divergence in amino acid sequence from the catalytic subunit of the dimensionally asymmetric (17 S + 13 S) enzyme. The divergent peptide could be recovered from the glycophospholipid-modified 5.6 S enzyme only after treatment with phosphatidylinositol-specific phospholipase C. Upon reduction, carboxymethylation with [14C]iodoacetate, and trypsin digestion the resultant peptides were purified by gel filtration followed by high performance liquid chromatography. The high performance liquid chromatography profiles of 14C-labeled cysteine peptides from lipase-treated 5.6 S enzyme revealed unique radioactive peaks which had not been present in digests of the asymmetric form. These peaks all yielded identical amino acid sequences. The difference in chromatographic behavior of the individual peptides most likely reflects heterogeneity in post-translational processing. Gas-phase sequencing and composition analysis are consistent with the sequence: Leu-Leu-Asn-Ala-Thr-Ala-Cys. Composition includes 2-3 mol each of glucosamine and ethanolamine which is indicative of modification by glycophospholipid. Glucosamine is also present in an asparagine-linked oligosaccharide. The two forms of acetylcholinesterase diverge after the threonine residue within this peptide sequence; the hydrophobic form terminates with cysteine whereas the asymmetric form extends for 40 residues beyond the divergence. The locus of divergence and absence of any other amino acid sequence difference suggest that the molecular forms of acetylcholinesterase arise from a single gene by alternative mRNA processing.
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PMID:Divergence in primary structure between the molecular forms of acetylcholinesterase. 333 34

Ten clinical isolates of Pseudomonas cepacia from the sputum of cystic fibrosis patients were examined for the ability to produce lipase. Lipase substrates used included egg yolk agar, four different polyoxyethylene sorbitans (Tweens), and p-nitrophenylphosphorylcholine, a chromogenic substrate used to assay for phospholipase C. Lipase activity was detected in the filtrates of organisms grown to the exponential phase in either tryptose minimal medium or chemically defined medium. Lipase activity increased in the filtrates if the cultures were allowed to proceed into the stationary phase. None of the isolates produced phospholipase C. Lipase activity on Tween 20 ranged from 41.6 X 10(-3) to 640.0 X 10(-3) U/micrograms of protein. The activity was similar or slightly lower when Tween 40, 60, or 80 was used as the substrate. There was no correlation between lipase activity on Tween and that demonstrated on egg yolk agar. Lipase activity increased as pH increased from 7.0 to 9.0. Boiling for 5 min resulted in 66% loss of enzyme activity. The remaining activity continued to decrease with increasing boiling time. The enzyme was purified by gel filtration on Sephadex G-200, and the resultant preparation, when subjected to polyacrylamide gel electrophoresis, resulted in a single protein band (molecular weight, approximately 25,000) from which lipase activity could be eluted. The purified lipase was not cytotoxic to HeLa cells, nor was it toxic when injected intravenously into mice.
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PMID:Production of lipase by clinical isolates of Pseudomonas cepacia. 338 18

Addition of the guanine nucleotide analogue guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S) to [3H]inositol-labeled NRK cell homogenates resulted in rapid breakdown of cellular polyphosphoinositides. GTP gamma S stimulated phospholipase C, resulting in a more than 4-fold increase in the hydrolysis rates of phosphatidylinositol 4-phosphate (PIP) and phosphatidylinositol 4,5-bis(phosphate) (PIP2). No significant effect of GTP gamma S on direct phosphatidylinositol (PI) hydrolysis was detected. There was an increase in water-soluble inositols, with inositol tris(phosphate) (IP3) levels increasing at least 10 times over the decrease seen in PIP2, indicating that PIP kinase activity was also accelerated following GTP gamma S addition. Inositol 1,4,5-tris(phosphate) peaked rapidly after GTP gamma S addition (less than 2 min) while inositol 1,3,4-tris-(phosphate) was produced more slowly and leveled off after approximately 10 min. The differential equations describing conversion between intermediates in the PI turnover pathway were solved and fitted to data obtained from both [3H]inositol and [32P]phosphate fluxes by nonlinear least-squares analysis. GTP gamma S effects on the pseudo-first-order rate constants for the lipase, kinase, and phosphatase steps were determined from the analysis. From these measurements it can be estimated that, in the presence of GTP gamma S and calcium buffered to 130 nM, hydrolysis of PIP2 accounts for at least 10 times as much diacylglycerol as direct PI breakdown despite the 100-fold excess of PI over PIP2. From the kinetic model it is predicted that small changes in the activities of PI and PIP kinases can have large but different effects on the level of IP3 and diacylglycerol following GTP gamma S addition. These results argue that regulation of PI and PIP kinases may be important for determining both cellular IP3 and diacylglycerol levels.
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PMID:Kinetic analysis of guanosine 5'-O-(3-thiotriphosphate) effects on phosphatidylinositol turnover in NRK cell homogenates. 354 23

The temperature-specific G surface antigen of Paramecium primaurelia strain 156 was biosynthetically labeled by [3H]myristic acid in its membrane-bound form, but not in its soluble form. It could be cleaved by a phosphatidylinositol-specific phospholipase C from Trypanosoma brucei or from Bacillus cereus which released its soluble form with the unmasking of a particular glycosidic immunodeterminant called the crossreacting determinant. The Paramecium enzyme, capable of converting its membrane-bound form into the soluble one, was inhibited by a sulphydril reagent in the same way as the trypanosomal lipase. From this evidence we propose that the Paramecium temperature-specific surface antigens are anchored in the plasma membrane via a glycophospholipid, and that an endogenous phospholipase C may be involved in the antigenic variation process.
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PMID:The membrane-anchor of Paramecium temperature-specific surface antigens is a glycosylinositol phospholipid. 366 13

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