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)

The steps between exposure of bovine adrenal glomerulosa cells to angiotensin and the stimulated increase in aldosterone production were studied in two ways. Binding of angiotensin to receptors, and hormone effects on phosphatidyl inositol turnover, 45Ca2+ fluxes, and aldosterone production were measured directly. Other potential intermediate steps were investigated indirectly by use of inhibitors. Angiotensin slowed calcium influx and accelerated phosphatidyl inositol turnover in proportion to hormone dose. The effects correlated with receptor binding and aldosterone production. None of the inhibitors tested, except saralasin, inhibited angiotensin's effect on phosphatidyl inositol turnover. Altered calcium flux and stimulated aldosterone production were affected by the calmodulin inhibitor trifluoperazine and the intracellular calcium antagonist 8-(N,N-diethylamino)-octyl 3,4,5-trimethoxybenzoate hydrochloride (TMB-8). Several reagents did not affect angiotensin binding, its effect on phosphatidyl inositol, or 45Ca2+ flux, but severely inhibited steroidogenesis. These included the phospholipase A2 inhibitor mepacrine, the protein synthesis inhibitor cycloheximide, and the Na+/k+-ATPase inhibitor ouabain. Colchicine had very little effect on the processes we measured, suggesting that microtubules play no role in angiotensin action in the adrenal. Based o these observations, we propose that angiotensin II affects the adrenal glomerulosa cell by first interacting with receptors, then increasing phosphatidyl inositol turnover, then altering cellular calcium distribution. Step distal to altered calcium distribution that contribute to increased steroid output include altered phospholipid metabolism, protein synthesis, and Na/k metabolism.
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PMID:Aspects of angiotensin action in the adrenal. Key roles for calcium and phosphatidyl inositol. 627 8

Efforts were made to understand the nature of the site of 1,1-bis-(p-chlorophenyl)-2,2,2-trichloroethane (DDT) inhibition of nerve ATPase. THe phospholipid content of nerve preparations from the walking leg of the lobster was reduced by treating them with phospholipase A, or with a chloroform-methanol mixture at -75 degrees. By these treatments the enzymes lost approximately 70 or 95% of their phospholipids and 50-80% of their Na,K- and Ca-ATPase activities. The lost ATPase activities could be partially restored by the addition of phospholipids, either the ones extracted from the lobster nerves or those from commercial sources. ATPase inhibition by DDT and permethrin was found to be highest in preparations where the phospholipids were removed by the above treatments, next highest with the untreated original enzyme, and least with the reconstituted ATPase regardless of the source of phospholipids used for reconstitution. This tendency was more pronounced in the case of Ca-ATPase. The effects of DDT and permethrin on inhibition of reconstituted Ca-ATPase were higher when the insecticide was first added to the protein portion and the enzyme was then reconstituted with the phospholipids, than when the same amount of insecticide was first added to the phospholipids which were then used for reconstitution.
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PMID:Role of phospholipids in the inhibitory action of DDT and permethrin on the nerve ATPase of lobster, Homarus americanus. 628 78

Pig gastric microsomal (H+ + K+)-stimulated ATPase activity was nearly abolished within 10 min of digestion with phospholipase A2 at room temperature. The enzyme activity could be largely restored by a cytosolic activator protein partially purified from the gastric cells. The K+ sensitivity and turnover of 32P-labelled intermediates produced by the control and the activator-reconstituted microsomal (H+ + K+)-stimulated ATPase were closely similar but were widely different to those from treated membranes without activator reconstitution. The data suggest an essential requirement for the endogenous activator for gastric (H+ + K+)-stimulated ATPase function.
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PMID:Regulation of the gastric microsomal (H+ + K+)-transporting ATPase system by the endogenous activator. Effect of phospholipase A2 treatment. 630 57

Pig gastric microsomal vesicles enriched in gastric H+,K+-ATPase and K+-pNPPase were digested with bee venom phospholipase A2 at 21 or 37 degrees C. The unattacked phospholipids were then related to the remaining enzyme activities, followed by reconstitution with microsomal phospholipids and the endogenous activator protein. Gastric K+-stimulated ATPase was nearly abolished within 10 min of phospholipase A2 treatment. A substantial amount of pNPPase activity remained unaffected under identical conditions. About 80% of the microsomal phosphatidylethanolamine was attacked by phospholipase A2 at both temperatures while 60 and 79% of the phosphatidylcholine was hydrolyzed at 21 and 37 degrees C, respectively. Analysis of the phospholipids revealed that phospholipase A2 attacked only the phosphatidylcholine and phosphatidylethanolamine molecules enriched in polyunsaturated fatty acids. Microsomal H+,K+-ATPase system inactivated by phospholipase A2 at 21 degrees C could be largely restored by the endogenous activator alone. On the other hand, those inactivated at 37 degrees C needed pretreatment with phosphatidylcholine before assaying with the activator protein for maximal reconstitution; phosphatidylethanolamine was totally ineffective in restoration of the enzyme activity. Analysis of the fatty acid composition of the lysophosphatidylcholine following phospholipase A2 treatment at 21 and 37 degrees C suggested involvement of some phosphatidylcholine molecules relatively enriched in saturated fatty acids and extremely poor in polyunsaturated fatty acids in gastric ATPase function. The data not only pointed out the importance of phosphatidylcholine and the endogenous activator in gastric microsomal H+,K+-ATPase reaction but also demonstrated considerable heterogeneity within the same species of microsomal phospholipids.
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PMID:Effects of phospholipase A2 on gastric microsomal H+, K+-ATPase system: role of "boundary lipids" and the endogenous activator protein. 631 3

Psychotropic drugs, especially neuroleptics, reversibly and noncompetitively inhibit the activity of Na, K-ATPase of the brain and Ca, Mg-ATPase of the sarcoplasmatic reticulum. The inhibitory effect is more pronounced versus the sarcoplasmatic reticulum and less marked versus purified enzymatic preparations. It is not much dependable on variations in the protein concentration of enzymatic preparations and is not related to drug binding to sulfhydryl groups of an enzyme. The inhibitory action of the drugs declines or completely disappears after treating the membranous preparations with phospholipase A. That psychotropic drugs have a predominant effect on the lipid structure of the membrane was supported during examination of EPR spectra of lipid spin labels.
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PMID:[Mechanisms of the action of psychotropic preparations on transport ATPases]. 645 55

The total phospholipid content and distribution of phospholipid species between the outer and inner monolayers of the isolated sarcoplasmic reticulum membrane was measured by phospholipase A2 activities and neutron diffraction. Phospholipase measurements showed that specific phospholipid species were asymmetric in their distribution between the outer and inner monolayers of the sarcoplasmic reticulum lipid bilayer; phosphatidylcholine (PC) was distributed 48/52 +/- 2% between the outer and inner monolayer of the sarcoplasmic reticulum bilayer, 69% of the phosphatidyl-ethanolamine (PE) resided mainly in the outer monolayer of the bilayer, 85% of the phosphatidylserine (PS) and 88% of the phosphatidylinositol (PI) were localized predominantly in the inner monolayer. The total phospholipid distribution determined by these measurements was 48/52 +/- 2% for the outer/inner monolayer of the sarcoplasmic reticulum lipid bilayer. Sarcoplasmic reticulum phospholipids were biosynthetically deuterated and exchanged into isolated vesicles with both a specific lecithin and a general exchange protein. Neutron diffraction measurements directly provided lipid distribution profiles for both PC and the total lipid content in the intact sarcoplasmic reticulum membrane. The outer/inner monolayer distribution for PC was 47/53 +/- 1%, in agreement with phospholipase measurements, while that for the total lipid was 46/54 +/- 1%, similar to the phospholipase measurements. These neutron diffraction results regarding the sarcoplasmic reticulum membrane bilayer were used in model calculations for decomposing the electron-density profile structure (10 A resolution) of isolated sarcoplasmic reticulum previously determined by X-ray diffraction into structures for the separate membrane components. These structure studies showed that the protein profile structure within the membrane lipid bilayer was asymmetric, complementary to the asymmetric lipid structure. Thus, the total phospholipid asymmetry obtained by two independent methods was small but consistent with a complementary asymmetric protein structure, and may be related to the highly vectorial functional properties of the calcium pump ATPase protein in the sarcoplasmic reticulum membrane.
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PMID:Phospholipid asymmetry in the isolated sarcoplasmic reticulum membrane. 648 19

Mouse peritoneal macrophages have a phospholipase A2 activity which is optimally active at pH 8.5 (PLA8.5), requires 2 mM Ca2+ and is capable of hydrolyzing arachidonic acid from phosphatidylcholine and phosphatidylethanolamine. The specific activity of PLA8.5 can be greatly increased in macrophage sonicates by their incubation at 37 degrees C. This augmentation of PLA8.5 activity occurs maximally at pH 7.5, requires Ca2+, and is inhibited by ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N',-tetraacetic acid and EDTA. The sulfhydryl-specific reagents N-ethylmaleimide and p-hydroxymercuribenzoate inhibit PLA8.5 activation but have no effect on the fully activated PLA8.5 enzyme itself. PLA8.5 activation is also augmented by ATP and is inhibited by pretreatment of the sonicates with ATPase and by beta-gamma-methylene ATP. The addition of the catalytic subunit of bovine heart cAMP-dependent protein kinase to macrophage sonicates in the presence of 1 mM reduced glutathione augments PLA8.5 activation. These data suggest that a protein kinase may be involved in the activation of PLA8.5 in mouse macrophage sonicates.
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PMID:Protein kinase activation of phospholipase A2 in sonicates of mouse peritoneal macrophages. 680 55

Dependence on the membrane lipids of sarcolemmal structure as well as functions was examined by incubating isolated rat heart sarcolemma with phospholipase A, C, or D. Conventional as well as negatively stained electron microscope preparations of the treated membranes revealed structural changes. Ca2+ binding and Na+, K+-ATPase activity were depressed following treatment of the membranes with any of the phospholipases whereas Ca2+-ATPase activity was not affected. Adenylate cyclase activity was increased by low concentration (25 micrograms/mg of protein) of phospholipase A, and a definite inhibition of the enzyme was noticed when the concentration of the phospholipase A was increased to 250 micrograms/mg of protein. Phospholipases C and D had no significant effect on the adenylate cyclase activity. Percentage of phospholipids hydrolyzed was more after phospholipase A treatments. These results provide evidence regarding the involvement of lipids in the membrane structure and functions.
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PMID:Structure-function relationship in heart sarcolemma. 739 39

Stimulation of resident peritoneal macrophages resulted in release of arachidonic acid (AA) from phospholipids. This AA release is believed to occur as a result of the activation of phospholipases, usually by a phospholipase A2 (PLA2). The purpose of this study was to elucidate the role of cytosolic calcium ion concentration ([Ca2+]i) in the modulation of [3H]AA mobilization in peritoneal macrophages. [3H]AA release induced by ionophore A23187, opsonized zymosan, or 4 beta-phorbol 12-myristate acetate (PMA) occurred in the absence of extracellular calcium. Studies in fura-2/AM-loaded cells showed that zymosan and PMA did not increase [Ca2+]i significantly, whereas A23187 induced PLA2 activity translocation up to plasmatic membrane. Thapsigargin, an inhibitor of endomembrane Ca(2+)-ATPase, induced a rise in [Ca2+]i when cells were incubated in a Ca2+ medium. However, thapsigargin was not an effective stimulator of the translocation of PLA2 activity and [3H]AA release. These data indicate that changes in [Ca2+]i were not sufficient to elicit [3H]AA mobilization; this process seems tightly modulated by phosphorylation-dependent mechanisms in the presence of low [Ca2+]i.
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PMID:Influence of calcium on arachidonic acid mobilization by murine resident peritoneal macrophages. 748 85

Amphiphiles are known to modulate the activity of ATPase, phospholipase A2, adenylate and guanylate cyclase amongst others and relax vascular smooth muscle. The effect of two amphiphiles, lysophosphatidylcholine (LPC) and digitonin on the activity of nitric oxide synthase (NOS), as measured by conversion of radiolabeled L-arginine to L-citrulline, has been studied. Neither digitonin (0.01 mmol/l) nor LPC (0.01 mmol/l) influenced NOS activity in endothelial cell homogenates. Digitonin but not LPC stimulated NOS in intact endothelial cells. NOS activity was markedly inhibited by L- but not by D-omega-nitroarginine (D-NNA, 0.1 mmol/l). L-NNA or D-NNA data demonstrate no effect of amphiphiles on isolated NOS. NOS activation may occur as a result of detergent action on the membrane.
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PMID:Effect of amphiphiles on nitric oxide synthase in endothelial cells. 751 49


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