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)

Calcium has been implicated as a regulatory factor in many physiological and pathophysiological processes in the renal cell. Under physiological conditions, the cytosolic free calcium concentration is maintained at approximately 100 nM. Most of the releasable cell Ca2+ resides in the nonmitochondrial compartments. In addition to the plasma membrane Ca2+ transport processes, there is a high-affinity, low-capacity buffering capability of nonmitochondrial organelles and a lower-affinity high-capacity mitochondrial Ca2+ buffering capability. A critical enzymatic effector of Ca2+ action in the cell is phospholipase A2. By using digitonin-permeabilized renal mesangial cells, the [Ca2+] dependency of phospholipase A2 was characterized. The [Ca2+] sensitivity was insufficient to explain the phospholipase A2 activation observed with vasopressin. In both intact cells, as well as permeabilized cells, it was found that protein kinase C activation markedly enhanced the Ca2+ calmodulin-dependent activation of phospholipase A2. In response to platelet-derived growth factor, it was found that arachidonic acid release preceded phospholipase C activation. This suggests that other effectors besides Ca2+ and protein kinase C may also be important for phospholipase A2 activation. In an experimental model designed to mimic postischemic reperfusion damage to renal mitochondria, it was demonstrated that reactive oxygen species act synergistically with Ca2+ to activate mitochondrial phospholipase A2, which mediates damage to site I of the electron transport chain, the F1F0 ATPase, and the adenine nucleotide translocase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calcium in renal cells. Modulation of calcium-dependent activation of phospholipase A2. 219 Aug 10

Curves of inhibition of rat brain Na, K-ATPase and K-pNPPase by prostaglandin E2 (PGE2) showed a sigmoidal shape with nH for PGE2 of 1.4 +/- 0.1 and 1.3 +/- 0.1, respectively. The desensitization of the enzymes with 0.25 M urea (4 degrees, 15 min) caused a loss of their cooperative interaction with PGE2. 2.0 mM PGE2 shifts the temperature break in the Arrhenius plots for the ATPase from 19.8 degrees to 23 degrees and simultaneously increased the Ea below the break by 9.5 kcal/mol. After treatment of the ATPase with phospholipase A2 PGE2 showed no cooperative interaction with the enzyme. Modulation of membrane enzymes by means of the surrounding lipid phasic state appears to be the general mechanism of their indirect allosteric regulation.
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PMID:[Prostaglandin E2 as a lipophilic allosteric modulator of the Na pump]. 240 78

Among a number of biochemical disturbances occurring in the acute phase of brain insults, the destruction of membrane phospholipids and its consequences on the function of membrane-bound proteins is likely to be one of the most important. In the cryogenic type of injury which is classically considered as a relevant animal model of brain contusive lesions in human traumatology, the initial attack of membranes could consist in a peroxidative damage triggered by blood ferrous compounds. This in turn would lead to an activation of phospholipase A2. As a consequence of phospholipid disruption a number of enzymes involved in energy production within the mitochondria are severely impaired. Nevertheless, the level of available ATP within the cell remains normal and even higher than normal. This paradoxical findings suggests that energy utilization is even more lowered than energy production. In fact, the Na+-K+-ATPase activity which normally utilizes approximately 70% of the total amount of cellular energy is severely reduced. We assume that Na+-K+-ATPase impairment is directly responsible for the retention of intracellular Na+ accompanied by osmotically driven water, though admittedly other biochemical disturbances, including tissue acidosis and liberation of excitatory amino-acids, would contribute to the same result. Lastly, a striking feature of these biochemical events is the early activation of those enzymes necessary for phospholipid resynthesis. This should mean that repair processes are at work immediately after the insult allowing resumption of Na+-K+-ATPase function, clearing up of brain edema and restoration of cation exchanges essential for brain work.
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PMID:Membrane damage in acute brain trauma. 254 38

We have compared the effects of highly purified preparations of cardiotoxins and phospholipases A2 from Naja mossambica mossambica venom on rat brain [Na+,K+]-ATPase activity. The results were the following: (i) micromolar concentrations of cardiotoxin preparations were required to inhibit [Na+,K+]-ATPase activity to the extent achieved by picomolar concentrations of phospholipases A2; i.e., the inhibitory effect of cardiotoxins appeared to be related to the contamination of the preparations by trace amounts of phospholipase A2; (ii) comparing phospholipases A2 from varied origins, a correlation was observed between [Na+,K+]-ATPase inhibition, isoelectric point, and toxicity for mice; (iii) when rat brain membranes were used, incubation for extended times with the most basic N. mossambica mossambica phospholipase A2 resulted in a biphasic [Na+,K+]-ATPase inhibition, suggesting that two distinct [Na+,K+]-ATPases were affected differentially. In contrast, incubation of rat brain membranes with either porcine pancreatic phospholipase A2, notexin, or beta-bungarotoxin and also incubation of erythrocyte membranes with the most basic N. mossambica mossambica phospholipase A2 produced monophasic [Na+,K+]-ATPase inhibitions. We discuss a possible specific action of toxic, basic phospholipase A2 on one of the [Na+,K+]-ATPase isoforms of excitable membranes.
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PMID:On the inhibition of [Na+,K+]-ATPases by the components of Naja mossambica mossambica venom: evidence for two distinct rat brain [Na+,K+]-ATPase activities. 254 44

Plasma membrane samples prepared from regressing rat corpora lutea were examined for production of the superoxide radical. A procedure was developed to purify membrane samples that were enriched approximately 15-fold with the plasma membrane marker enzyme, and superoxide radical levels were determined using electron spin resonance to measure Tiron semiquinone. During prostaglandin F2 alpha-induced and spontaneous regression, there was a significant increase in formation of superoxide radical that was not observed in plasma membrane samples from nonregressing corpora lutea. Plasma membrane incubation experiments indicated that the increase in production was temperature sensitive and reduced with inhibitors of phospholipase A2 and cyclooxygenase. Addition of superoxide dismutase or vitamin E abolished superoxide radical formation in vitro. Following the rise in superoxide radical levels during regression, there was also a significant decrease in the activity of the plasma membrane enzyme, Na+-K+ ATPase. These results indicate that the production of superoxide radical increases in plasma membrane samples prepared from regressing rat corpora lutea and that this increase is mainly due to the products of phospholipase A2 and cyclooxygenase activity.
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PMID:Superoxide radical production in plasma membrane samples from regressing rat corpora lutea. 254 92

p-Bromophenacyl bromide (PBPB), quinacrine and indomethacin, which inhibit phospholipase A2 (PLA2; EC 3.1.1.4) activity in several tissues, caused a dose-dependent inhibition of prelabelled [3H]noradrenaline ([3H]NA) release evoked by high concentrations of K+ from rat cerebral cortical synaptosomes. Release of prelabelled [3H]NA was caused by natural lysophosphatidic acid (LPA; 10(-6)-10(-5) g mL-1) and lysophosphatidylcholine (LPC; 10(-6)-10(-5) g mL-1) and synthetic LPA (6 x 10(-6), 2 x 10(-5) M) and LPC (6 x 10(-6), 2 x 10(-5) M), but not by natural lysophosphatidylserine (LPS; 10(-5) g mL-1), lysophosphatidylethanolamine (LPE; 10(-5) g mL-1) and lysophosphatidylinositol (LPI; 10(-5) g mL-1). The release evoked by natural LPA and LPC could be inhibited only marginally by PBPB and quinacrine. Phosphatidic acid (PA)-specific and phosphatidylcholine (PC)-specific PLA2 activities from rat cerebral cortical synaptosomes were stimulated in incubation medium containing high concentrations of K+ or calcium ionophore A23187. Low concentrations of PLA2 (10(-6)-10(-8) g mL-1, from bee venom) inhibited the synaptic membrane Na+,K+-ATPase activity in incubation media with intracellular levels of free Ca2+. Several lysophospholipids (LPLs), metabolites of the PLA2 type, also inhibited the synaptic membrane Na+,K+-ATPase activity in a dose-dependent manner. The minimum effective concentrations of natural LPA, LPC, LPS, LPI and LPE were 10(-6), 4.7 x 10(-6), 10(-5), 4.7 x 10(-5) and 4.7 x 10(-5) g mL-1, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition of Na+,K+-ATPase activity by phospholipase A2 and several lysophospholipids: possible role of phospholipase A2 in noradrenaline release from cerebral cortical synaptosomes. 257 Aug 49

The self assembly of phospholipid molecules in the bilayer form was considered in terms of equivalent molecular shapes representing intermolecular forces. The equivalent size of each phospholipid headgroup was approximated by the net atomic volume plus the volume of the associated water molecules, which was derived from water/hydrocarbon partitioning experiments. The equivalent lengths of unsaturated acyl chains were derived from the retention time data from chromatographic measurements. The spontaneous curvature of various phospholipid monolayers was calculated from their equivalent molecular shapes, and the energy required to flatten them to the bilayer plane was calculated, using the known bending modulus. With increasing bending energy, the mixtures showed increasing susceptibility to phospholipase A2, facilitated lipid transfer rate by phospholipid exchange proteins, permeability to carboxyfluorescein, incorporation of human erythrocyte proteins, and calcium transport by Ca-ATPase from sarcoplasmic reticulum in reconstituted vesicles. When the calculation was applied to known lipid compositions of nine cellular membranes, the protein/lipid ratio and phospholipid/cholesterol ratio were found to have a positive and a negative correlation, respectively, with the latent bending energy of the phospholipids. The energy expense in conforming to a bilayer phase may be an important physical parameter regarding the activity and the biogenesis of membranes.
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PMID:Effects of lipid packing on polymorphic phase behavior and membrane properties. 276

The incubation of isolated rat hepatocytes with 0.172 mM carbon tetrachloride caused a rapid decrease in the calcium content of both mitochondrial and extramitochondrial compartments. However, the release of Ca2+ from the intracellular stores was not associated with an increase in the cytosolic Ca2+ levels as measured by activation of phosphorylase alpha or by Quin-2 fluorescence. A rapid rise in hepatocyte free calcium was only observed with concentrations of CCl4 higher than 0.172 mM. The lack of activation of phosphorylase alpha was not due to the inhibition of the enzyme by CCl4, since in CCl4-treated hepatocytes the phosphorylase activity could be stimulated by glucagon, butyryl--cAMP or by the increase of cell calcium induced by the addition of A23187. Ca2+-dependent ATPase of plasma membranes was only slightly affected in the early phases of poisoning with CCl4 when both mitochondrial and extramitochondrial calcium pools were already lowered. This led to the conclusion that calcium released from intracellular organelles could be extruded from the cells in sufficient amounts to prevent the increase of the cytosolic levels. A rise in hepatocyte free calcium was observed during the second hour of incubation with CCl4, concomitantly with the appearance of both LDH leakage and plasma membrane blebbing. The addition of EGTA to the medium prevented both the increase in cytosolic Ca2+ and the blebbing suggesting that they were a consequence of an influx of calcium into the cells. However, neither EGTA nor the addition of inhibitors of calcium-dependent phospholipase A2 or non-lysosomal proteases were able to protect against cell death. These latter results suggested that the alterations of calcium distribution induced by CCl4 in isolated hepatocytes were not a primary cause of the toxic effects, although they did not exclude that a sustained rise in cytosolic Ca2+ could contribute in the progression of cell injury.
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PMID:Effects of carbon tetrachloride on calcium homeostasis. A critical reconsideration. 276 92

The role of lipids in the effect of ethanol on synaptosomal (Na + K)ATPase was studied using native and partially delipidized synaptosomal membranes from control and alcoholic rats. A biphasic effect of alcohol was observed with the (N + K)ATPase from control membranes. Ethanol at low concentrations (less than 100 mM) appears to enhance the enzyme activity, but at higher concentrations (greater than 300 mM) was inhibitory. The biphasic response to ethanol was also observed with the (Na + K)ATPase isolated from alcoholic animals; however, in this case the enzyme showed a resistance to the inhibitory effect of ethanol. Delipidization of synaptic membranes with Lubrol WX or phospholipase A practically abolishes the effects of alcohol on (Na + K)ATPase from both control and alcoholic animals. It thus seems that the effects of ethanol are due mainly to their interaction with the lipids surrounding the enzyme. Furthermore, addition of ethanol to native membranes did not change the Vmax and Km for K+. However, when ethanol at the same concentration was added to delipidized membranes, a decrease in Km with no change in Vmax was observed. Ethanol under these conditions apparently interacts also with the enzyme protein. On the other hand, chronic ethanol intake produces an increase of both Vmax and Km for K+. However, when alcohol was added in vitro, there were no changes in the kinetic parameters of either native or delipidized membranes. These data indicate that although the effects of ethanol on synaptosomal (Na + K)ATPase are mainly due to its interaction with the lipid microenvironment of the enzyme, a direct ethanol action on the enzyme protein also occurs. Our data further suggest that chronic ethanol treatment alters enzyme sensitivity to the effect of ethanol which may be related to the membrane-lipid composition and/or to changes in the conformation of the enzyme protein.
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PMID:Effects of ethanol on rat brain (Na + K)ATPase from native and delipidized synaptic membranes. 282 18

We investigated the effects of phospholipases on the activity of microsomal Cl-ATPase in the rat brain, in reference to those on the activities of Na,K-ATPase and anion-insensitive Mg-ATPase. In the presence of phospholipase A2 or phospholipase C, which almost completely hydrolyzed microsomal phosphoglycerides, the activities of Cl-ATPase and Na,K-ATPase were decreased to 8-50% of the control, but anion-insensitive Mg-ATPase activity was not altered. On the other hand, with sphingomyelinase treatment, only anion-insensitive Mg-ATPase was slightly inactivated. On the addition of phospholipids (phosphatidylserine (PS), phosphatidylinositol (PI) and microsomal phospholipid mixture), Cl-ATPase activity slightly recovered only with PI, while Na,K-ATPase activity partially recovered with either phospholipid. These data suggest that Cl-ATPase requires intact membrane lipid conformation and especially PI for its maximal activity.
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PMID:Effects of phospholipases on Cl-ATPase in the rat brain. 284 74


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