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)

We studied the effect of muscle acylphosphatase on the Ca2+ pumping ATPase of heart sarcolemma. Acylphosphatase addition to calmodulin-depleted sarcolemmal vesicles produced a significant increase in the rate of Ca(2+)-dependent ATP hydrolysis, even higher than obtained with exogenously added calmodulin. Maximal stimulation (about four fold over basal value) was obtained with 550 units/mg vesicle protein, a concentration that fall within the physiological range. Conversely, similar amounts of acylphosphatase decreased the rate of ATP-dependent Ca2+ transport into the sarcolemmal vesicles. The maximal statistically significant inhibition of Ca2+ uptake was observed with the same acylphosphatase concentration that gave the maximal stimulation of Ca(2+)-ATPase activity. From these findings acylphosphatase appears to reduce the efficiency of heart sarcolemmal Ca2+ pump with an impairment of the coupling between ATP hydrolysis and Ca2+ transport. A possible mechanism of this effect is discussed.
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PMID:Alterations induced by acylphosphatase in the activity of heart sarcolemma calcium pump. 131 52

Acylphosphatase, purified from human erythrocytes, actively hydrolyzes the acylphosphorylated intermediate of human red blood cell membrane Ca(2+)-ATPase. This effect occurred with acylphosphatase amounts (up to 10 units/mg membrane protein) that fall within the physiological range. Furthermore, a very low Km value, 3.41 +/- 1.16 (S.E.) nM, suggests a high affinity in acylphosphatase for the phosphoenzyme intermediate, which is consistent with the small number of Ca(2+)-ATPase units in human erythrocyte membrane. Acylphosphatase addition to red cell membranes resulted in a significant increase in the rate of ATP hydrolysis. Maximal stimulation (about 2-fold over basal) was obtained at 2 units/mg membrane protein, with a concomitant decrease in apparent Km values for both Ca2+ and ATP. Conversely, similar amounts of acylphosphatase significantly decreased (by about 30%) the rate of Ca2+ transport into inside-out red cell membrane vesicles, albeit that reduced apparent Km values for Ca2+ and ATP were also observed in this case. A stoichiometry of 2.04 Ca2+/ATP hydrolyzed was calculated in the absence of acylphosphatase; in the presence of acylphosphatase optimal concentration, this ratio was reduced to 0.9. Acylphosphatase activity, rather than just protein, was essential for all the above effects. Taken together these findings suggest that, because of its hydrolytic activity on the phosphoenzyme intermediate, acylphosphatase reduces the efficiency of the erythrocyte membrane Ca2+ pump. A possible mechanism for this effect is that the phosphoenzyme is hydrolyzed before its transport work can be accomplished.
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PMID:Effects of acylphosphatase on the activity of erythrocyte membrane Ca2+ pump. 164 13

Acylphosphatase, purified from human erythrocytes, actively hydrolyzes the phosphoenzyme intermediate of human red blood cell membrane Na+, K(+)-ATPase. This effect occurred with acylphosphatase amounts (up to 10 units/mg membrane protein) that fall within the physiological range. Acylphosphatase addition to erythrocyte membranes resulted in a significant increase in the rate of Na+, K(+)-dependent ATP hydrolysis. Maximal stimulation, observed with 10 units/mg membrane protein, was of about 80% over basal value. The same acylphosphatase amount enhanced of about 40% the rate of ATP driven Na+ transport into inside out red cell membrane vesicles. Taken together these findings suggest a potential role of acylphosphatase in the control of the activity of erythrocyte membrane Na,K pump.
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PMID:Hydrolysis by acylphosphatase of erythrocyte membrane Na+, K(+)-ATPase phosphorylated intermediate. 166 43

To explore a possible role of acylphosphatase in the regulation of energy metabolism, we measured this enzyme's activity and content in skeletal muscle, liver and erythrocytes of normal and tri-iodothyronine treated rabbits. Besides acylphosphatase we assayed (Na+ + K+)-ATPase, Ca2(+)-ATPase and several enzymes of carbohydrate metabolism. Acylphosphatase activity in erythrocytes rose steadily during treatment with triiodothyronine (25 micrograms/Kg per day for 5 weeks), and its increase occurred earlier and was much more pronounced than that of other soluble enzymes. In erythrocytes of treated animals (Na+ + K+)-ATPase declined whereas Ca2(+)-ATPase activity increased, in agreement with previously reported findings. In muscle and liver of the treated animals acylphosphatase activity was about twice as high as in the controls; in these tissues we found also increased activities for (Na+ + K+)-ATPase, fructose-1,6-bisphosphatase and glucose-6-phosphatase. In any case, among the enzymes we examined, acylphosphatase was one of the most strongly and regularly stimulated by the treatment. Furthermore we observed, through an immunochemical procedure, that there was a congruence between increases in acylphosphatase activity and content. On the basis of these results we conclude that the rise in acylphosphatase levels in treated animals is probably due to its increased biosynthesis. The possible significance of these findings in the metabolic modifications associated with hyperthyroidism are discussed.
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PMID:Increased acylphosphatase levels in erythrocytes, muscle and liver of tri-iodothyronine treated rabbits. 215 65

We studied the effect of human acylphosphatase on the activity of human erythrocyte membrane Ca2(+)-ATPase. Both the acylphosphatase that is contained in hemolysate and the purified enzyme isolated from red blood cells were able to stimulate Ca2(+)-ATPase activity in erythrocyte membranes. Given the same acylphosphatase activity, however, the hemolysate showed higher stimulatory effect than the purified enzyme. Acylphosphatase stimulation was additive to that induced by calmodulin, thus indicating that acylphosphatase acts in a calmodulin-independent manner. Trifluoperazine, a calmodulin antagonist, did not inhibit acylphosphatase-induced stimulation of Ca2(+)-ATPase activity. Acylphosphatase significantly decreased the rate of Ca2+ influx into inside-out erythrocyte membrane vescicles, thus acting as Ca2+ pump inhibitor. Taken together these findings indicate that acylphosphatase is a soluble, non-calmodulin activator of erythrocyte membrane Ca2(+)-ATPase and might be involved in the control of calcium transport across the plasma membrane.
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PMID:Effect of acylphosphatase on human erythrocyte membrane Ca2(+)-ATPase. 215 97

Hexokinase, lactate dehydrogenase, acylphosphatase, (Na+,K+)-ATPase and Ca2(+)-ATPase of selected areas from postmortem Alzheimer's disease brains were studied. Hexokinase and lactate dehydrogenase were significantly changed in all the examined subcortical nuclei. (Na+,K+)-ATPase activity was altered in several areas of Alzheimer's disease brains. No changes in Ca2(+)-ATPase and acylphosphatase were observed. The main alterations of the assayed enzymes were observed in subcortical areas but not in cortical areas of Alzheimer's disease brains.
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PMID:Changes in Na+,K(+)-ATPase, Ca2(+)-ATPase and some soluble enzymes related to energy metabolism in brains of patients with Alzheimer's disease. 216 43

Acylphosphatase activity and content were measured in erythrocytes from hyperthyroid patients and healthy controls. In addition, the soluble enzymes glucose-6-phosphate dehydrogenase, hexokinase, and the membrane bound (Na+ + K+)-ATPase and Ca2+-ATPase were assayed. Our results confirmed previous studies indicating a decrease of (Na+ + K+)-ATPase and an increase of Ca2+-ATPase activity in hyperthyroid erythrocytes. While glucose-6-phosphate dehydrogenase was not significantly changed, hexokinase and acylphosphatase activities were significantly higher in the hyperthyroid group. Both activities and content of acylphosphatase returned to normal levels in erythrocytes from treated patients, when they were euthyroid. These findings suggest that an excess of thyroid hormones may stimulate acylphosphatase biosynthesis in erythroid cells and indicate a potential clinical usefulness of this enzyme in hyperthyroidism.
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PMID:Increased acylphosphatase levels in erythrocytes from hyperthyroid patients. 255 5

The post-mortem stability of some brain enzymes was studied. Over the time period under examination, the cytoplasmic enzymes investigated underwent a decisive decay, hexokinase being the most labile and acylphosphatase the most stable. On the other hand, structured activities such as Na+, K+-ATPase and Ca2+, Mg2+-ATPase showed an apparent transitory increase. The differences in post-mortem stability of soluble enzymes could be ascribed, at least in part, to their different susceptibility toward proteolytic activities, as suggested by the electrophoretic results.
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PMID:Post-mortem modifications of the specific activity of some brain enzymes. 283 61

Human skeletal muscle acylphosphatase was purified by immunoaffinity chromatography using anti-horse muscle acylphosphatase antibodies. The three forms of the enzyme present in human muscle are very similar to those found in muscles of other animal species. The two main forms, Hu 1 and Hu 3, were also characterized with respect to molecular weight and some kinetic properties. Levels of acylphosphatase activity were measured in specimens of muscle from normals and from patients with various forms of muscular dystrophies and other myopathies. Acylphosphatase activity appears to be lower in all myopathic forms considered than in controls, and seems to be correlated with percentage of Ca2+ activation of (Ca2+ + Mg2+)-ATPase.
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PMID:Acylphosphatase from human skeletal muscle: purification, some properties and levels in normal and myopathic muscles. 300 28

Acylphosphatase, purified from cardiac muscle, catalyzes the hydrolysis of the phosphorylated intermediate of heart sarcolemmal Na+,K(+)-ATPase. This effect was remarkable even using acylphosphatase amounts (100-300 units/mg of membrane protein) near the lower limit of the physiological range; besides the low value of the apparent Km, on the order of 10(-7) M, indicates that the enzyme has a high affinity for this special substrate. The results of a dot-immunobinding assay suggest the possibility of an interaction between acylphosphatase and native, undenaturated Na+,K(+)-ATPase. Moreover, when added to sarcolemmal vesicles, acylphosphatase was found to affect the functional properties of the Na+,K+ pump with regard to the rate of both ATP hydrolysis and cation transport. However, while ATPase activity and Na+ uptake were stimulated, the last at a greater extent, the active K+ transport was inhibited, so that the Na+/K+ ratio, which was calculated as 1.50 without acylphosphatase, rose to 6.68 in the presence of 300 units/mg of vesicle protein of this enzyme. Taken together, the reported results indicate that acylphosphatase, because of its hydrolytic activity on the phosphoenzyme intermediate, induces a sort of "uncoupling" effect on the heart sarcolemmal membrane Na+,K+ pump. Possible mechanisms for such an effect, which suggests a potential role of acylphosphatase in the control of this active transport system, are discussed.
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PMID:Acylphosphatase: a potential modulator of heart sarcolemma Na+,K+ pump. 775 98

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