EC:3.6.1.3 - FACTA Search

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 mechanism of endocytosis in resealed human erythrocyte ghosts was studied. The energy for endocytosis or micropinocytosis appears to be derived from Mg-ATP, and membrane internalization is preceded by activation of a membrane-associated Ca,Mg-ATPase and by the active efflux of Ca. Endocytosis, Ca,Mg-ATPase activity, and active Ca efflux all require the presence of Mg. Furthermore, these three phenomena, endocytosis, Ca,Mg-ATPase activity, and active Ca extrusion, all have a concentration dependence on Ca such that low concentrations stimulate and higher concentrations inhibit the phenomena. The optimal concentration of Ca is identical for endocytosis, active Ca efflux, and Ca,Mg-ATPase. Morphologic studies indicated that while active Ca efflux and activation of the Ca,Mg-ATPase activity occurred promptly upon onset of incubation, there was a significant time delay before endocytosis occurred, which suggests that endocytosis additionally involved a more slowly functioning mechanicochemical mechanism. Ruthenium red, a specific inhibitor of Ca,Mg-ATPase and Ca transport, inhibited endocytosis in a concentration-related manner. Prostaglandins E1 and E2 had no measurable effect on ghost endocytosis, active Ca efflux, or Ca,Mg-ATPase activity.
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PMID:Energized endocytosis in human erythrocyte ghosts. 12 48

Many drugs or chemicals had markedly different effects on the cytotoxicity induced by Pseudomonas aeruginosa exotoxin A (PE) or Corynebacterium diphtheriae exotoxin (DE). The glycolytic inhibitor NaF protected cells from DE but potentiated the cytotoxicity of PE. Another energy inhibitor, salicylic acid, also protected cells from DE but had no effect with PE. Colchicine and colcemid did not affect the cytotoxicity of either toxin. Cytochalasin B exhibited a modest protection from DE but no effect with PE. Ouabain, a specific inhibitor of the Na+, K+-dependent adenosine 5'-triphosphatase (ATPase), did not affect the cytotoxicity of either toxin. Ruthenium red, a specific inhibitor of the Ca2+, Mg2+,-dependent ATPase, conferred marked protection from DE-induced cytotoxicity but did not affect PE-induced cytotoxicity. A number of local anesthetics were tested, and they too presented differential results with PE and DE. Most chemicals that affected toxin-induced cytotoxicity had little or no influence on the in vitro adenosine 5'-diphosphate-ribosylation catalyzed by either toxin. This work presents further evidence that PE and DE have different mechanisms of intoxication and suggests that these differences lie in the attachment or internalization stages of intoxication.
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PMID:Differential chemical protection of mammalian cells from the exotoxins of Corynebacterium diphtheriae and Pseudomonas aeruginosa. 14 24

The Mg2+, Ca2+-ATPase activity of plasma membranes in bull brain synaptosomas was studied as affected by ruthenium red, hexamine cobalt, aminazine, verapamyl, melipramin, lanthanum acetate and oligomycin. Lanthanum acetate in a concentration of 5.10(-5)M is shown to inhibit completely the enzyme activity. Ruthenium red and hexamine cobalt in a concentration of 10(-4) inhibit this ATPase activity by 50-60%. Melipramin, aminazine, verapamyl in concentrations of 10(-6)-10(-4)M and oligomycin in a concentration of 0.01-5 microgram/ml have no effect on the enzyme activity.
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PMID:[Effect of substances inhibiting the ion transport on Mg2+, Ca2+-ATPase activity of synaptic plasma membranes]. 15 28

Ruthenium red was found to inhibit actin-activated myosin Mg(2+)-ATPase in smooth muscle and to bind to myosin heavy chain, but not to F-actin. The inhibition by Ruthenium red of actin-activated Mg(2+)-ATPase was of the competitive type with respect to actin (Ki 4.4 microM) and of the non-competitive type with respect to ATP (Ki 6.6 microM). However, Ruthenium red scarcely dissociated the acto-heavy meromyosin complex during the ATPase reaction. These results suggest that Ruthenium red interacts directly with the binding site for F-actin on the myosin heavy chain. This site is considered to be necessary not for maintaining the binding affinity of myosin for F-actin, but for activation of the Mg(2+)-ATPase.
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PMID:Inhibition of actin-activated myosin Mg(2+)-ATPase in smooth muscle by ruthenium red. 128 Jun 3

We have studied the effect of Ruthenium red on the sarcoplasmic reticulum Ca(2+)-ATPase. Ruthenium red does not modify the Ca2+ pumping activity of the enzyme, despite its interaction with cationic binding sites on sarcoplasmic reticulum vesicles. Two pools of binding sites were distinguished. One pool (10 nmol/mg) is dependent upon the presence of micromolar Ca2+ and may therefore represent the high-affinity Ca2+ transport sites of the Ca(2+)-ATPase. However, Ruthenium red only slightly competes with Ca2+ on these sites. The other pool (15-17 nmol/mg) is characterized as low-affinity cation binding sites of sarcoplasmic reticulum, distinct from the Mg2+ site involved in the ATP binding to the Ca(2+)-ATPase. The interaction of Ruthenium red with these low-affinity cation binding sites, which may be located either on the Ca(2+)-ATPase or on surrounding lipids, decreases tryptophan fluorescence level of the protein. As much as 25% of the tryptophan fluorescence of the Ca(2+)-ATPase is quenched by Ruthenium red (with a dissociation constant of 100 nM), tryptophan residues located near the bilayer being preferentially affected.
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PMID:Ruthenium red affects the intrinsic fluorescence of the calcium-ATPase of skeletal sarcoplasmic reticulum. 137 28

In this study, we report that sphingosine is a potent inhibitor of sarcoplasmic reticulum (SR) calcium release. Evidence is presented demonstrating a direct effect of sphingosine on the SR ryanodine receptor. Calcium release from "skinned" rabbit skeletal muscle fibers and isolated junctional SR derived from the terminal cisternae (TC) was measured in response to caffeine, doxorubicin, 5'-adenylyl-beta,gamma-imidodiphosphate or calcium. Sphingosine inhibited caffeine-induced release in a dose-dependent manner with an IC50 of 0.1 microM for the single muscle fibers and 0.5 microM for the isolated TC vesicles. Near complete blockage of TC calcium release rate was observed with 3 microM sphingosine. Neither sphingomyelin nor sphingosylphosphorylcholine had any effect at the 3 microM level, suggesting that the sphingosine effect was specific. Doxorubicin-induced calcium release and spontaneous calcium release were also blocked by sphingosine. Sphingosine was also capable of stimulating calcium transport in the isolated TC vesicles without an effect on Ca-ATPase activity. Ruthenium red was not capable of substantial additional stimulation of calcium transport nor inhibition of calcium release beyond the action of sphingosine. Sphingosine's blockage of calcium release was not reversed by the protein kinase inhibitor, 1-(5-isoquinolinesulfonyl)-2- methylpiperazine dihydrochloride, suggesting that the action of sphingosine on calcium release was not dependent on ryanodine receptor phosphorylation. Sphingosine significantly increased (8-fold) the Kd for specific [3H]ryanodine binding to TC membranes and decreased the Bmax with a dose dependence similar to the inhibition of calcium release, but sphingosine did not affect the pCa tension relationship of skinned skeletal muscle fibers. These data are consistent with a direct effect of submicromolar sphingosine on the ryanodine receptor. Substantially higher concentrations of sphingosine (30-50 microM) or sphingosylphosphorylcholine (10-20 microM) were capable of inducing calcium release by themselves. Preliminary data indicate that the transverse tubule and not the SR contain substantial sphingomyelinase activity consistent with a transverse tubule source of sphingosine production. Considering that sphingosine is found in micromolar concentrations in some cells, our data indicate that sphingosine generated by the transverse tubule membranes may be a physiologically relevant mechanism for modulating SR calcium release.
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PMID:The effects of sphingosine on sarcoplasmic reticulum membrane calcium release. 138 59

The sarcoplasmic reticulum (SR) controls uptake and release of Ca2+ in muscle. Little information is available regarding the effect of volatile anesthetics on Ca2+ release from SR isolated from normal skeletal muscle, even though an abnormality of Ca2+ handling is implicated in malignant hyperthermia. In this study we used a Ca2+ electrode to monitor continuously the release of Ca2+ from SR and the effect of volatile anesthetics on this process. We found that halothane, enflurane, and isoflurane at 0.6, 0.7, and 0.8 vol%, respectively, each increased the velocity of Ca2+ leakage by at least 150% when compared to control. Ruthenium red, a blocker of the SR Ca(2+)-release channel, was shown to have no effect on the velocity of Ca2+ leakage. Halothane and isoflurane both shortened the time at which Ca2+ leakage began (T) in a dose-dependent fashion. Halothane at 4.8 vol% decreased T from 293 +/- 21 s to 149 +/- 20 s. Isoflurane (4.8 vol%) decreased T to 203 +/- 16 s, and enflurane at 5 vol% had little effect, decreasing T to 259 +/- 19 s. We noted a marked stimulation in the ATPase activity of the SR by all three volatile anesthetics. Halothane at 0.63 vol%, isoflurane at 0.42 vol%, and enflurane at 0.62 vol% each increased ATPase activity by at least 300%. We conclude that the stimulation of the velocity of Ca2+ leakage by the volatile anesthetics is related to the more rapid depletion of ATP, but that the shortening of the onset of Ca2+ leakage is a independent phenomenon with a markedly different dose dependence.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Halothane, enflurane, and isoflurane stimulate calcium leakage from rabbit sarcoplasmic reticulum. 153 95

These studies were performed to determine the changes that occur in Na+/Ca2+ exchange activity in Alzheimer's disease (AD) brain tissues. Cerebral plasma membrane vesicles were purified by sucrose density gradient centrifugation from frozen postmortem hippocampal/temporal cortex tissue slices derived from age matched brains of normal, AD and non-Alzheimer dementia (NAD) origin (autopsy confirmed). Membrane marker assays (Na/K ATPase, muscarinic receptor, cytochrome c oxidase) revealed no change in membrane purity across different preparations. Thin-section electron microscopy revealed predominantly intact unilamellar vesicles. Vesicles were preincubated for 15 min (37 degrees C) in buffer containing 132 mM NaCl, 5 mM KCl, 1.3 mM MgCl2, 10 mM glucose and 10 mM HEPES (pH 7.4). Ca2+ uptake was initiated by diluting vesicles 20-fold with buffer containing either 132 mM NaCl or 132 mM choline chloride and 45CaCl2 then terminated by addition of 200 microM LaCl3 and rapid filtration. Ca2+ content increased rapidly at first and then maintained a steady plateau for up to 5 min. When the Ca2+ ionophore A23187 (10 microM) with 100 microM EGTA was added after 4 min, Ca2+ content was reduced to 10% of its original value. Ruthenium red (10 microM) had no effect on Ca2+ content. Na(+)-dependent Ca2+ uptake (Ca2+ content measured in choline chloride minus that measured in NaCl) was increased in AD brains as evidenced by both an increase in the initial rise in Ca2+ content and in elevated values of peak plateau Ca2+ content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Na+/Ca2+ exchange activity is increased in Alzheimer's disease brain tissues. 164 56

We and others have published data that indicate that the role played by microtubules and microfilaments in biliary secretion is as follows: microtubules play a part in secretion and microfilaments play a part in the canalicular contraction. To further study the role of the cytoskeleton in canalicular contraction, we observed the contraction of bile canaliculi (BC) induced by vasopressin (VP) in cultured differentiated hepatocytes treated with several agents that selectively rearrange the cytoskeleton. The hepatocytes obtained from 14-day-old rats were cultured for 48 hours. The BC formed between the cells were dilated and closely sealed by junctional complexes. Ruthenium red stain showed that the junctional complexes of the BC were tightly sealed. Cytoskeletal changes were observed by double-labeled fluorescence microscopy. A spontaneous contraction of the BC was rarely seen during a 60-minute observation period in controls. When the hepatocytes were incubated with VP (10(-8) M), the canalicular contraction began at 30 minutes, gradually progressed, and was complete by 60 minutes. The contraction was reversed after 60 minutes of incubation in VP-free medium. In cytochalasin B-treated hepatocytes, actin appeared to form pools around the dilated BC, and the canalicular contraction after VP was rarely observed. In colchicine-treated hepatocytes, the microtubules were depolymerized. Although the BC appeared unaffected by colchicine alone, the canalicular contraction induced by VP was markedly decreased. beta-lumicolchicine had no effect on the cytoskeleton or on the canalicular contraction. Mg2(+)-ATPase histochemistry revealed that the BC that did not contract after VP contained little Mg2(+)-ATPase reaction product. When the BC contracted, diverticula came off to form diacytotic vesicles, as indicated by the presence of the BC marker enzyme reaction product within the vesicles. Colchicine treatment blocked the diacytotic process. This prevented the contraction stimulated by VP, because all of the routes of escape of the canalicular contents were blocked off, including diacytosis. In conclusion, the integrity of actin filaments and Mg2(+)-ATPase is necessary for VP-induced contraction, and the integrity of microtubules is essential for regurgitation of BC content (diacytosis).
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PMID:Role of cytoskeleton in canalicular contraction in cultured differentiated hepatocytes. 169 May 9

We will demonstrate the compound 48/80 and ruthenium red inhibit the smooth-muscle plasma-membrane Ca2+ pump by counteracting the stimulant effect of negatively charged phospholipids. Both substances did not affect the purified enzyme re-activated by pure phosphatidylcholine or phosphatidylinositol and measured in the absence of calmodulin, indicating that under these conditions they did not have a direct effect on the ATPase protein. Ruthenium red and compound 48/80 however inhibited the (Ca2(+) + Mg2+)-ATPase in the presence of phosphatidylinositol 4-phosphate and especially phosphatidylinositol 4,5-bisphosphate. The K0.5 for inhibition was 25 microM ruthenium red and 9 micrograms/ml of compound 48/80. The inhibition by ruthenium red developed slowly with half maximal inhibition occurring after about 75 s while that by compound 48/80 developed immediately within the time required for mixing. The efficacy of ruthenium red increased as the concentration of the acidic phospholipid increased, while no such cooperativity was observed for compound 48/80. Ruthenium red reduced the Vmax for Ca2+ without affecting the affinity for Ca2+, while compound 48/80 decreased both parameters. In conclusion, although ruthenium red and compound 48/80 affect the ATPase differently, both substances most likely inhibit the plasma-membrane Ca2+ pumping by counteracting the stimulation by negatively charged phospholipids.
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PMID:Ruthenium red and compound 48/80 inhibit the smooth-muscle plasma-membrane Ca2+ pump via interaction with associated polyphosphoinositides. 169 44

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