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)

The desialylation of chick brain microsomal membranes affects the transbilayer distribution of phospholipids. When intact microsomes were treated with neuraminidase, less phosphatidylcholine and sphingomyelin could be hydrolysed with phospholipase C under experimental conditions which allowed the hydrolysis of the phospholipids of the external leaflet only. In contrast, the accessibility of phosphatidylethanolamine and phosphatidylserine to the external probes (trinitrobenzene sulfonic acid or phospholipase C) was not affected. After neuraminidase treatment of a microsomal fraction, less phosphatidylcholine, newly synthesized through the cytidine pathway, could be hydrolysed by phospholipase C, whereas the reaction of newly synthesized phosphatidylethanolamine molecules with trinitrobenzene sulfonic acid was not affected. The results suggest that in biological membranes some choline phospholipid molecules may interact with the sialyl residue of sialocompounds. This interaction may contribute to the maintenance of phospholipid asymmetry in brain membranes.
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PMID:Effect of neuraminidase treatment on the topological distribution of phospholipids in chick brain microsomes. 373 Mar 82

Epididymal 5 alpha-reductase converts testosterone to 5 alpha-dihydrotestosterone. The enzyme is localized to the nuclear and microsomal membranes, and using two approaches, we investigated the relationship between 5 alpha-reductase activity and the membrane environment. In the first, nuclear and microsomal membrane fractions were treated with phospholipases to modify specifically the structure of the phospholipid component of the membranes, and the effects of these treatments on the kinetic parameters of 5 alpha-reductase were examined. The second approach was to observe the effects of phospholipids of known structure on solubilized 5 alpha-reductase activity. Treatment of the membrane fractions with phospholipase C increased the Km(app) of both the nuclear and microsomal 5 alpha-reductases for testosterone. Phospholipase A2 treatment also increased the Km(app) of the microsomal enzyme, but in contrast, the Km(app) of the nuclear 5 alpha-reductase for testosterone was unaffected. This demonstrated a fundamental difference in the role of the membrane environment in the expression of 5 alpha-reductase activity in these subcellular compartments. The ability of phospholipids to enhance the activity of solubilized 5 alpha-reductase was highly specific and structure related. Only phosphatidylcholines containing either unsaturated acyl chains or saturated acyl chains of 12 carbon atoms were found to activate 5 alpha-reductase. The most potent activator was dilauroyl phosphatidylcholine, which reduced the Km(app) values of both nuclear and microsomal 5 alpha-reductases for testosterone, without affecting the concentration of active 5 alpha-reductase (Vmax(app) ). This is the first time that an activator of 5 alpha-reductase has been found. These findings suggest that epididymal 5 alpha-reductase activity may be regulated by changes in the phospholipid environment.
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PMID:Modulation of epididymal delta 4-steroid 5 alpha-reductase activity in vitro by the phospholipid environment. 399 84

It has been well recognized that acyl groups of phospholipids play an important role for structure and function of biomembrane. The turnover of these acyl groups in normal brain biomembrane is also well known. Some types of enzymic system related to this turnover has been investigated. Phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase belong to these enzymic systems. In this report, the sequential changes of phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase activities in ischemic rat brain were examined. The purpose of this study was to examine the enzymic changes of deacylation-reacylation cycle of biomembrane phospholipid in ischemic brain. Ischemic brain were produced by decapitation and activities of 5 enzymes were assayed in microsomal fraction. The activities of phospholipase A, PI-specific phospholipase C, lipase showed high value during early stage of ischemia for 15 or 30 min and then decreased gradually. Lysophospholipase activity was not changed for 120 min. On the other hand, acylCoA: lysophospholipid acyltransferase activity showed gradual decrease from the beginning of ischemia. There are some reports that in early ischemic stage, the concent of free fatty acids increase, while that of phospholipid decrease. The present results may suggest that the changes of free fatty acid and phospholipid in ischemic brain are related to these enzymic system.
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PMID:[The activities of phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase in ischemic brain microsomal fraction]. 402 86

1. The pretreatment of rat liver microsomes with phospholipase C or D decreased the N-demethylation of (+)-benzphetamine. The hydroxylation of aniline was essentially unchanged by pretreatment of microsomes with phospholipase C. 2. Some components of the microsomal mixed-function oxidase system were impaired by phospholipases. 3. The fluorescence of 1-anilinonaphthalene-8-sulphonate (ANS) was greatly enhanced by microsomes. Phospholipase C or D markedly decreased ANS-microsome fluorescence. Quantum yield of ANS-microsome fluorescence appeared to be related directly to phospholipid content of microsomes. 4. Most of the drugs studied enhanced ANS-microsome fluorescence. Warfarin, however, displaced ANS fluorescence competitively from microsomes. The latter effect was postulated as being due to warfarin competing with ANS for the cationic site on microsomal phosphatidylcholine. 5. ANS fluorescence was also increased by the presence of phospholipid micelles. The fluorescence of ANS-phosphatidylcholine micelles was modified by warfarin and (+)-benzphetamine in a manner similar to that observed with microsomes. Warfarin decrease of fluorescence was absent when ANS was bound to phosphatidic acid, which lacks a cationic site. 6. Trypsin pretreatment of microsomes did not modify ANS-microsome fluorescence, including drug-induced changes. 7. It was postulated that phospholipids have a permissive role in the metabolism of most drugs by hepatic microsomes and that the ANS probe might reflect interactions of compounds with microsomal membrane phospholipids.
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PMID:A role for phospholipids in the binding and metabolism of drugs by hepatic microsomes. Use of the fluorescent hydrophobic probe 1-anilinonaphthalene-8-sulphonate. 512 6

ATPase activity and Ca2+ uptake were examined in microsomal membrane fractions isolated from guinea pig stomach smooth muscle which had been exposed to phospholipase C (PLC). Basal Mg2+-ATPase, Na+, K+-ATPase and Ca2+, Mg2+-ATP activities were inhibited in a time dependent manner by PLC treatment. There was positive correlations between each of these ATPase activities and total phospholipid content of the microsomal fraction. Phosphotidylcholine restored Ca2+, Mg2+-ATPase activity of the microsomal fraction isolated from the tissue which had been treated with PLC for 30 min but not after 60 min. Ca2+ uptake in the presence of ATP by microsomal fraction from tissue treated with PLC for 60 min was significantly decreased. The results provide a cellular basis for the inhibitory effect of PLC on contractility of stomach smooth muscle.
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PMID:ATPase activity and calcium uptake of microsomes isolated from stomach smooth muscle after exposure to phospholipase C. 622 98

Sarcolemma-rich microsomal fractions were isolated from rabbit ventricular muscle by differential centrifugation and discontinuous sucrose gradient techniques. The fractions were characterized in terms of calcium binding, enzymic activity, gel electrophoresis, and ultrastructure. Racemate verapamil (1 microM) reduced (P less than 0.001) the Ca2+-binding and Ca2+-activated ATPase activity of these fractions; the activity resided in the l-isomer. 14C-Labeled verapamil was found to be bound to carbohydrate residues in the membrane. Pretreatment with trypsin or phospholipase C diminished the 14C-verapamil binding. When added to isolated hearts perfused under conditions of "low flow," verapamil prevented mitochondrial Ca2+ overload.
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PMID:Cardiovascular receptors and calcium. 624 88

Interrelationships between the catalytic behavior of glucose-6-phosphatase and the structure of rat-liver microsomal membranes were investigated. 2. Rabbit anti-microsomal serum completely inhibited glucose-6-phosphate hydrolysis in detergent-modified microsomes but showed no inhibitory effect on the enzyme activity of intact or mechanically disrupted vesicles. 2. Controlled proteolysis of intact microsomes using carboxypeptidase A and/or aminopeptidase M largely denatured enzymes situated on the outer surface of the microsomal vesicles such as monodehydroascorbate reductase and cytochrome c reductase. However, it did not affect the glucose-6-phosphatase activity at all, which remained in a latent state within the membrane. 3. Temperature studies on glucose-6-phosphatase have revealed that only the enzyme activity of intact microsomes exhibited a nonlinear Arrhenius plot, whereas detergent-modified microsomes showed a linear temperature response. 4. Treatment of microsomes with phospholipase C and toluene-2,4-diisocyanate resulted in an apparent loss of about 65% and 85% of the original glucose-6-phosphatase activity and was closely correlated with hydrolysis and chemical modification of phosphatidylethanolamine, respectively. These apparent inactivations could be reversed by addition of Triton X-114 alone without any phospholipid supplementation. These observations indicate that glucose-6-phosphatase is buried within the microsomal membrane, not exposed on either side. They also suggest that phospholipids are involved in the glucose-6-phosphate transport mechanism.
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PMID:Investigations on the possible involvement of phospholipids in the glucose-6-phosphate transport system of rat-liver microsomal glucose-6-phosphatase. 624 79

1. Extensive treatment of rabbit kidney microsomes with phosphatidylinositol-specific phospholipase C under various conditions never resulted in more than 75% hydrolysis of the substrate. 2. The non-degraded fraction of the phosphatidylinositol (10-12 nmol per mg microsomal protein) could be recovered only by an acidic extraction procedure. 3. The (Na+ + K+)-ATPase activity found in those membranes was not affected by this treatment. 4. Complete degradation of phosphatidylinositol could be easily achieved when the phospholipase was applied to rat liver microsomes which do not contain any detectable (Na+ + K+)-ATPase activity. 5. It is concluded that in rabbit kidney microsomes a close association exists between the (Na+ + K+)-ATPase and that fraction of the phosphatidylinositol that is directly involved in the maintenance of its activity.
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PMID:The fraction of phosphatidylinositol that activates the (Na+ + K+)-ATPase in rabbit kidney microsomes is clearly associated with the enzyme protein. 627 Dec 11

A neuronal nuclear fraction (N1) and a microsomal fraction (P3) were isolated from homogenates of cerebral cortices of 15-day-old rabbits. A nuclear envelope fraction (E) was prepared from N1. To assay cholinephosphotransferase, diacylglycerols were first generated in the membranes of these subfractions using a phospholipase C (Bacillus cereus) preincubation. With levels of endogenous diacylglycerols producing maximal specific cholinephosphotransferase activities, an activity ratio of 1:1:5 was found for N1, P3, and E, respectively. An independent neuronal nuclear cholinephosphotransferase, concentrated in nuclear membranes, is indicated. With regard to changes in pH and concentrations of MgCl2 and CDP-choline, N1 and P3 activities responded in a similar manner. However, in contrast to P3, N1 activities we much more profoundly inhibited at low levels of Triton X-100 (0.01-0.02 w/v%) and N1 showed quite significant levels of cholinephosphotransferase activity in the absence of a phospholipase C preincubation. Choline phosphotransferase in N1 and P3 showed Km values for CDP-choline (0.028 and 0.031 mM, respectively) which were much lower than corresponding literature values determined using exogenous diacylglycerols as substrates for this enzyme. The presence of cholinephosphotransferase in neuronal nuclear membranes reflects a rather exceptional nuclear autonomy. This may be related to a need to maintain nuclear phospholipid in the absence of a well-developed endoplasmic reticulum at early stages of neuronal development or to synthesize phospholipid in response to functions unique to the nucleus.
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PMID:Cholinephosphotransferase activities in microsomes and neuronal nuclei isolated from immature rabbit cerebral cortex: the use of endogenously generated diacylglycerols as substrate. 628 6

The role of phospholipids in the glucose-6-phosphatase system, including glucose-6-P phosphohydrolase and glucose-6-P translocase, was studied in rat liver microsomes by using phospholipases C and detergents. In the time course experiments on detergent exposure, the maximal activation of glucose-6-P phosphohydrolase varied according to the nature of the detergent used. On treatment of microsomes with phospholipase C of C. perfringens, the activity of glucose-6-P phosphohydrolase without detergent (i.e. without rupture of translocase activity) was gradually decreased with the progressive hydrolysis of phosphatidylcholine and phosphatidylethanolamine on the microsomal membrane, and was restored by incubation of these microsomes with egg yolk phospholipids. The extent of decrease in this phosphohydrolase activity in the detergent-exposed microsomes (with rupture of translocase activity) also varied depending on the detergent used (Triton X-114 or taurocholate). When 66% of the phosphatidylinositol on the membrane was hydrolyzed by phosphatidylinositol-specific phospholipase C of B. thuringiensis, the inhibition of glucose-6-P phosphohydrolase activity without detergent was very small. Although the inhibition of enzyme activity with detergent was apparently greater than that without detergent, the enzyme activity was stimulated by the breakdown of phosphatidylinositol when the enzyme activity was measured at lower concentration (0.5 mM) of substrate, glucose-6-P. The latency of mannose-6-P phosphohydrolase, a plausible index of microsomal integrity, remained above 70% after the hydrolysis of phosphatidylcholine, phosphatidylethanolamine, or phosphatidylinositol. The results show that the glucose-6-phosphatase system requires microsomal phospholipids for its integrity, suggesting that there exists a close relation between phosphatidylinositol and glucose-6-P translocase.
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PMID:Studies on the interactions between phospholipids and membrane-bound enzymes in microsomes. Effects of phospholipases C on the glucose-6-phosphatase system of rat liver microsomes. 630 98


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