Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Addition of halothane to the incubation medium is shown to lower respiratory control and transmembrane potential and to increase ATPase activity in isolated rat liver mitochondria. Evidence is presented that L-carnitine is able to substantially decrease the negative effects of halothane on the energy-linked processes of mitochondria. The effects of halothane and the protective action of L-carnitine are discussed in the light of a possible involvement of long-chain acyl CoA in the unpairing of mitochondrial energy-linked functions.
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PMID:L-carnitine effect on halothane-treated mitochondria. 294

Drug-induced taurine depletion of rat heart led to the accumulation of free CoA, free carnitine and long-chain acylcarnitine, but a small decrease in long-chain fatty acyl-CoA. Although elevations in total tissue long-chain acylcarnitine levels have been linked to defective membrane function and the association of long-chain acylcarnitines with extramitochondrial membranes, these effects were absent in isolated sarcoplasmic reticulum prepared from taurine-depleted hearts. In contrast to the sarcoplasmic reticulum data, taurine depletion was associated with a significant decrease in ATP-dependent calcium uptake by isolated sarcolemmal vesicles. The major effect of taurine depletion on the sarcolemma was a 2-fold decrease in both the Vmax of calcium transport and the activity of the Ca2+ -stimulated ATPase. Sarcolemmal vesicles prepared from taurine-depleted hearts also exhibited a decreased capacity to transport calcium in exchange for sodium, although the initial rate of the process was unaffected by taurine depletion. Since incubation of sarcolemma from taurine-depleted hearts with taurine could not overcome the effects of taurine depletion, it was concluded that the effects of taurine were not caused by a direct interaction of it with the calcium pump. Possible mechanisms of taurine action are discussed.
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PMID:Regulation of calcium transport in drug-induced taurine-depleted hearts. 297 16

Sarcolemmal (SL) and microsomal (MC) membranes were prepared from adult canine cardiocytes. SL Na+, K+-ATPase (2.35 mumole/min per mg) was enriched 117-fold over the homogenate and MC rotenone-insensitive NADH cytochrome c reductase (RINCR) was enriched 41-fold. Preincubation of SL with 50 microM arachidonyl-CoA (20:4 CoA) stimulated Na+, K+-ATPase almost 2-fold; 250 microM 20:4 CoA inhibited the enzyme by 85%. However, RINCR was inhibited 80% by only 0.2 microM 20:4 CoA. Thus, each of these myocardial lipid-dependent enzymes showed a different sensitivity to perturbation by lipid amphiphiles. In further experiments, SL preincubated with 50 microM 20:4 CoA + 2.5 mM propranolol (which had no effect alone) exhibited a synergistic inhibition of the Na+, K+-ATPase: The enzymatic activity declined 8.5-fold when compared to sarcolemma treated with 50 microM 20:4 CoA alone. Thus, the presence of lipid amphiphiles may result in greater inhibition of the Na+, K+-ATPase when propranolol is present in the membrane.
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PMID:Perturbations of sarcolemmal and microsomal enzymes by amphiphilic lipids and drugs. 298 57

The effects of naturally occurring lipid amphiphiles on free radical-mediated peroxidative injury in isolated canine sarcolemma were studied. Highly enriched canine myocytic sarcolemmal membranes were preincubated for 10 min at 37 degrees C with or without different amphiphilic lipids before the addition of a free radical-generating system consisting of dihydroxyfumarate and Fe3+-ADP. Lipid peroxidation, assayed as malondialdehyde formation, was catalyzed linearly up to 40 min in the control samples. Pretreatment of the sarcolemma with palmitoyl-CoA, palmitoylcarnitine, or lysophosphatidylcholine accelerated the initial rates (20 min) of peroxidation in a concentration-dependent manner (10-100 microM) and achieved maximal stimulation (240%, 160%, and 210%, respectively, of controls) at 50 microM concentrations of each of these amphiphiles. However, free fatty acids, CoA, and carnitine were without effect. These promoting effects of the amphiphiles persisted over a wide pH range (pH 6.0-7.8) and exhibited additive effects when lower levels of different amphiphiles were combined together. Associated with the accelerated rates of peroxidation produced by palmitoyl-CoA and palmitoylcarnitine were greater losses in the activity of sarcolemmal (Na,K)-ATPase. Since all three kinds of amphiphilic lipids accumulate during ischemia, this study suggests a novel mechanism of potentiation of sacolemmal membrane injury when free radicals are present.
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PMID:Potentiation of free radical-induced lipid peroxidative injury to sarcolemmal membranes by lipid amphiphiles. 300 57

A new method using lysophosphatide and acyl-CoA as detergents has been used to solubilize the rat brain opiate receptor. After solubilization, lysophosphatide and acyl-CoA can be almost completely removed by an enzymatic reaction that uses an acyltransferase from rat liver microsomes and reconstitutes the solubilized receptor in membranous vesicles. Morphological studies performed with negative staining and freeze-fracture electron microscopy revealed that the general appearance and intramembrane particle distribution of fracture faces in the reconstituted membrane are similar to those of the native membrane; this indicates that hydrophobic protein components of the original membrane were incorporated during reconstitution. Reconstituted membrane, however, contained higher levels of phosphatidylcholine and lower levels of cholesterol. The activities of the membrane-bound enzymes Na+, K+-ATPase and Ca2+, Mg2+-ATPase in the reconstituted system were 24 and 3%, respectively, those of the native membrane. Although binding of opiate ligands to the reconstituted membrane was stereospecific and saturable, higher concentrations of some of the unlabeled ligands were required to inhibit binding of the radiolabeled ligands. These changes in receptor characteristics are likely due to changes in lipid composition, physical state, and/or distribution of the lipids in the reconstituted membrane bilayer. This conclusion is supported by an increase in the affinity of opiate ligands for reconstituted membrane after adjustment of the latter's lipid composition to match more closely that of the original membrane. This was accomplished by treatment with phospholipid exchange protein to remove the excess phosphatidylcholine and by incorporation of cholesterol into the reconstituted membrane.
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PMID:Enzymatic reconstitution of brain membrane and membrane opiate receptors. 300 99

Long-chain unsaturated fatty acids and fatty acyl CoA derivatives activated (Na++K+)-ATPase at suboptimal, but not optimal, ATP concentrations. Activation was obtained within a narrow range of fatty acid concentrations; higher acid levels inhibited the enzyme. The various CoA esters, however, activated with K0.5 values in the range of 0.15-10 microM; and with no inhibitory effects at concentrations up to 100 microM. Palmitoyl CoA, binding reversibly to a regulatory site, reduced K0.5 of ATP from 0.37 mM to 0.17 mM; and changed the Hill coefficient of the substrate-velocity curve from 0.86 to 0.63. These compounds may be physiological regulators that desensitize the function of this enzyme to diminishing ATP levels.
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PMID:Activation of (Na++K+)-ATPase by long-chain fatty acids and fatty acyl coenzymes A. 301 98

Incubation of rat liver mitochondria with benzoquinone derivatives in the presence of succinate plus rotenone has been shown to cause NAD(P)H oxidation followed by Ca2+ release. Further investigation revealed: (1)p-Benzoquinone-induced Ca2+ release was not initiated by a collapse of the mitochondrial membrane potential. However, Ca2+ release and subsequent Ca2+ cycling caused limited increased membrane permeability. (2) p-Benzoquinone-induced NAD(P)H oxidation and Ca2+ release were prevented by isocitrate, 3-hydroxybutyrate, and glutamate but not by pyruvate or 2-oxoglutarate. (3) Inhibition of pyruvate and 2-oxoglutarate dehydrogenases by p-benzoquinone was attributed to arylation of the SH groups of the cofactors, CoA and lipoic acid. Isocitrate dehydrogenase was also inhibited by p-benzoquinone, but the cofactors NAD(P)H and Mn2+ protected the enzyme. Glutamate dehydrogenase was not inhibited by p-benzoquinone. (4) Arylation of mitochondrial protein thiols by p-benzoquinone was associated with an inhibition of state 3 respiration, which was attributed to the inactivation of the phosphate translocase. In contrast, state 4 respiration, and the F1.F0-ATPase and ATP/ADP translocase activities were not inhibited. It was concluded that inhibition of mitochondrial NAD(P)H dehydrogenases by arylation of critical thiol groups will decrease the NAD(P)+-reducing capacity, and possibly lower the NAD(P)H/NAD(P)+ redox status in favor of Ca2+ release.
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PMID:Role of sulfhydryl groups in benzoquinone-induced Ca2+ release by rat liver mitochondria. 321 68

Sarcolemmal vesicles were purified to a similar extent, 50- to 60-fold on a protein basis, from normal rat hearts and hearts subjected to 30 or 60 min of autolysis at 37 degrees C (total ischemia in vitro). Electron microscopic examination of the autolytic hearts revealed sarcolemmal discontinuities and other morphological characteristics typical of irreversible cell injury. Total contents and percentage composition of phospholipid classes did not differ between normal and autolytic hearts or between sarcolemmal preparations from these hearts. There was no increase in lysophospholipid contents of whole hearts or of purified sarcolemma after autolysis. Long chain acyl-CoAs or acylcarnitines did not accumulate in autolytic hearts under our experimental conditions. The molar long chain acyl-CoA: phospholipid ratio in isolated sarcolemma was extremely low (1:100,000). It increased 3-fold after autolysis but the increase was most probably the result of an increase in mitochondrial contamination of the sarcolemmal preparations from autolytic hearts. The molar long chain acylcarnitine: phospholipid ratio of isolated sarcolemma was much larger (1:100), but it did not change after autolysis. Experiments, in which radioactive amphiphiles were incorporated in isolated sarcolemma that was subsequently repeatedly washed, indicated that the lysophospholipid and acylcarnitine contents of isolated sarcolemma reflect the contents of sarcolemma in situ, but that sarcolemmal acyl-CoA is used for re-acylation reactions during purification, explaining the low acyl-CoA content of isolated sarcolemma. Na/K-ATPase and Na/Ca-exchange activities were markedly depressed in isolated sarcolemma from autolytic hearts. Our results suggest that sarcolemmal phospholipid breakdown and sarcolemmal amphiphile accumulation are not responsible for the structural and functional defects of the sarcolemma after autolysis.
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PMID:Phospholipid composition and amphiphile content of isolated sarcolemma from normal and autolytic rat myocardium. 336 78

A procedure for the purification of the enzyme bile acid:CoA ligase from guinea pig liver microsomes was developed. Activity toward chenodeoxycholate, cholate, deoxycholate, and lithocholate co-purified suggesting that a single enzyme form catalyzes the activation of all four bile acids. Activity toward lithocholate could not be accurately assayed during the earlier stages of purification due to a protein which interfered with the assay. The purified ligase had a specific activity that was 333-fold enriched relative to the microsomal cell fraction. The purification procedure successfully removed several enzymes that could potentially interfere with assay procedures for ligase activity, i.e. ATPase, AMPase, inorganic pyrophosphatase, and bile acid-CoA thiolase. On sodium dodecyl sulfate-polyacrylamide gel electrophoresis the purified ligase gave a single band of approximately 63,000 Mr. A molecular size of 116,000 +/- 4,000 daltons was obtained by radiation inactivation analysis of the ligase in its native microsomal environment, suggesting that the functional unit of the ligase is a dimer. The purified enzyme was extensively delipidated by adsorption to alumina. The delipidated enzyme was extremely unstable but could be partially stabilized by the addition of phospholipid vesicles or detergent. However, such additions did not enhance enzymatic activity. Kinetic analysis revealed that chenodeoxycholate, cholate, deoxycholate, and lithocholate were all relatively good substrates for the purified enzyme. The trihydroxy bile acid cholate was the least efficient substrate due to its relatively low affinity for the enzyme. Bile acid:CoA ligase could also be solubilized from porcine liver microsomes and purified 180-fold by a modification of the above procedure. The final preparation contains three polypeptides as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The three peptides range in size from 50,000 to 59,000, somewhat smaller than the guinea pig enzyme. The functional size of the porcine enzyme in its native microsomal environment was determined by the technique of radiation inactivation analysis to be 108,000 +/- 5,000 daltons. Thus, the functional form of the porcine enzyme also appears to be a dimer.
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PMID:Bile acid: CoASH ligases from guinea pig and porcine liver microsomes. Purification and characterization. 355 96

Two enzymes of polyisoprenoid synthesis, 3-hydroxy-3-methylglutaryl coenzyme A (HMG CoA) reductase (mevalonate:NADP oxidoreductase [acylating CoA], EC 1.1.1.34) and mevalonate kinase (ATP:mevalonate 5-phosphotransferase, EC 2.7.1.36), are present in the microsomal and soluble fractions of Neurospora crassa, respectively. HMG CoA reductase specifically uses NADPH as reductant and has a K(m) for dl-HMG CoA of 30 micro M. The activities of HMG CoA reductase and mevalonate kinase are low in conidia and increase threefold during the first 12 hr of stationary growth. Maximum specific activities of both enzymes occur when aerial hyphae and conidia first appear (2 days), but total activities peak later (3-4 days). Addition to the growth media of ergosterol or beta-carotene, alone or in combination, does not affect the specific or total activity of either enzyme. The mevalonate kinase of N. crassa, purified 200-fold to a specific activity of 5 micro moles/min/mg, is free from HMG CoA reductase, phosphomevalonate kinase, ATPase, adenylate kinase, and NADH oxidase activities. Mevalonate kinase specifically requires ATP as cosubstrate and exhibits a marked preference for Mg(2+) over Mn(2+), especially at high ratios of divalent metal ion to ATP. Kinase activity is inhibited by p-hydroxymercuribenzoate, and this inhibition is partially prevented by mevalonate or MgATP. Optimum activity occurs at pH 8.0-8.5 and at about 55 degrees C. The Neurospora kinase, like that of hog liver, has a sequential mechanism for substrate addition. The Michaelis constants obtained were 2.8 mM for dl-mevalonate and 1.8 mM for MgATP(-2). Geranyl pyrophosphate is an inhibitor competitive with MgATP (K(i) = 0.11 mM).
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PMID:3-Hydroxy-3-methylglutaryl CoA reductase and mevalonate kinase of Neurospora crassa. 436 66


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