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 activities of renal lactate and malate dehydrogenases, glutaminase, and Na-K-ATPase were determined in aging male C57BL/6 mice. Urine concentrating ability in these mice and renal response to metabolic acidosis were also studied. Total enzyme activities were measured in vitro in tissue homogenates from mice that were 120, 400, 500, 600, 700, and 800 days old. Urine concentrating ability was determined in these mice prior to sacrifice. Lactate and malate dehydrogenase activities decreased between 120 and 700 days with only male dehydrogenase activity increasing between 700 and 800 days. Age did not affect glutaminase or Na-K-ATPase activities and urine concentrating ability was decreased only at 700 days. Both urine ammonia excretion and renal glutaminase activity increased at 120 and 600 days in response to metabolic acidosis. However, only 5 of 12 animals tested at 600 days survived the acid stress for a full 7 days.
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PMID:Effects of age on renal function and enzyme activity in male C57BL/6 mice. 12 7

Distinct morphological regions, initial, middle and terminal segments, were distinguishable histologically; the middle segment was further subdivided into proximal, intermediated and distal parts. PAS-positive, diastase-resistant reaction was detected in the blood vessels, subepithelial tissue and stereocilia of all segments. Acid phosphatase was demonstrated in the epithelial cells with the highest activity being in the proximal part of the middle segment. Non-specific esterase gave a similar reaction but the strongest activity was in the terminal segment. Alkaline phosphatase, adenosine triphosphatase and adenosine monophosphatase were of similar activity in the subepithelial tissue, blood vessels, stereocilia and luminal contents; the strongest reaction occurred in the middle segment. Lactate, succinate, glutamate and glucose-6-phosphate dehydrogenases were examined; LDH was more active than the others particularly in the terminal segment. Some reaction was found in the epithelial cells, subepithelial tissue and luminal contents.
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PMID:On the regional histology and histochemistry of the epididymis of the camel (Camelus dromedarius). 15 47

The purpose of this study was to examine the effects of lactate, protons, inorganic phosphate, and ATP on myofibrillar ATPase activity. Myofibrils were isolated from carp (Cyprinius carpio L.) fast-twitch white muscle, and myofibrillar ATPase activities were assessed under maximal activating calcium levels (pCa 4.0) at 10 degrees C in reaction media containing metabolic profiles similar to those seen in fatiguing muscles. The Ca(2+)-activated ATPase activity was assessed by an ATP regenerating assay that coupled the myofibrillar ATPase to pyruvate kinase and lactate dehydrogenase. This assay allowed the effects of ATP, inorganic phosphate, protons, and lactate on myofibrillar ATPase activity to be assessed. The coupled assay was found to give similar myofibrillar ATPase kinetics, with the exception of higher maximal activities, to those seen with a standard end-point assay. Myofibrillar ATPase activity was depressed by 35% when ATP concentrations were lowered to 2.5 mM. Lowering ATP levels to 0.5 mM reduced the myofibrillar ATPase activities by 85%. Lactate had no effect on myofibrillar ATPase activities. Inorganic phosphate levels up to about 20 mM significantly decreased the myofibrillar ATPase activities, after which further increases in inorganic phosphate content had minimal effects. The changes in ATPase activities were related to total inorganic phosphate, not to the content of diprotonated inorganic phosphate. Myofibrillar ATPase activity was highest at pH 7.5 and lowest at pH 6.0. The interactive effects of low ATP, decreased pH, and high inorganic phosphate levels were not additive, giving similar decreases in activity to those produced by increased inorganic phosphate levels alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effects of ATP, inorganic phosphate, protons, and lactate on isolated myofibrillar ATPase activity. 133 56

Embryonal nervous tissue from Wistar rats was transplanted into male rats of Wistar and August strains. Activity of eight enzymes belonging to various systems was estimated in brain cortex of rats recipients within 36 days after the transplantation. Lactate dehydrogenase, alanine aminotransferase, acid phosphatase, 5'-nucleotidase, ATPase and aldolase exhibited the dissimilarly decreased rate of activity in brain cortex of Wistar rats after transplantation as compared with the enzymatic activity in intact animals of this strain, while activity of alkaline phosphatase and esterases hydrolyzing alpha-naphthyl acetate was increased. Activation of almost all the enzymes studied was found within 36 days in Wistar rats after the transplantation. The rate of activity of zonal esterase isoenzymes was higher in brain cortex of August rats after transplantation of embryonal nervous tissue from Wistar strain as compared with that of Wistar to Wistar rats transplantation. The data obtained suggest that tissues of donors affected definitely the enzymatic activity in brain cells of rats-recipients as activity of most enzymes studied was higher in brain cortex of donors as compared with that of recipients.
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PMID:[Specifics of changes in various groups of enzymes in rat cerebral cortex after interstrain transplantation of embryonal nerve tissue]. 141 28

L(+)Lactic acid enhances myosin ATPase in vitro. Different organic acids were tested for activation of myosin ATPase activity. L(+)Lactic is more effective in stimulating ATPase than D(-)Lactic. D(+) and L(-)Malic acids were also effective at the concentration of 2.5 x 10(-2)-5.0 x 10(-2) mmoles/l. At 3.0 x 10(-2) mmoles/l concentration the following acids are activators: acetic, oxalic, malonic, oxaloacetic, pyruvic, glyoxylic, glycolic; succinic is an inhibitor and acetoacetic is without effect. The activation is not in relation with the pKa of these acids. The inhibitory effects of organic acids are evident at the concentration of 5.0 x 10(-2) mmoles/l. This inhibitory effect is linearly increasing with their pKa. The results are discussed in connection with the possible role of these metabolites in controlling not only ATPase activity towards splitting of ATP, but also in controlling the removal of its hydrolytic products.
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PMID:Effects of monocarboxylic and dicarboxylic acids on myosin ATPase activity tested by luminometric procedure. 153 14

It has been hypothesized that, in oxygen-depleted myocardial cells, mitochondria are depolarized and the F1,F0-proton adenosinetriphosphatase (ATPase) catalyzes net ATP hydrolysis when the cells exhibit the signs of an aerobic-anaerobic metabolic transition, which are increased lactate formation and decline in high-energy phosphate reserves [W. Rouslin, C. W. Broge, and I. L. Grupp. Am. J. Physiol. 259 (Heart Circ. Physiol. 28): H1759-H1766, 1990]. This hypothesis was tested by incubating isolated cardiomyocytes from the adult rat in substrate-free Tyrode solution (37 degrees C, pH 7.4) at a PO2 less than or equal to 0.1 Torr, i.e., 1,000-fold below the normal arterial level. At this deep hypoxia, the following results were found. 1) Lactate production was activated to maximal rates and high-energy phosphate contents decreased (aerobic-anaerobic metabolic transition). The inhibitor of the mitochondrial F1,F0-proton ATPase oligomycin, however, added upon establishment of hypoxia, did not slow down, as in the case of depolarized mitochondria, but moderately accelerated energy depletion. 2) Activation of mitochondrial ATP hydrolysis could be provoked in these hypoxic cells by addition of cyanide, antimycin A, and rotenone, i.e., specific inhibitors of certain sites of the respiratory chain. The enhancement of loss of ATP could be inhibited by oligomycin. The results demonstrate that states of deep hypoxia of the cardiomyocyte are possible in which it undergoes an aerobic-anaerobic metabolic transition, indicated by increased lactate formation and progressive loss of cellular energy reserves, and yet mitochondrial ATPase hydrolytic activity is not activated.
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PMID:Mitochondrial ATP-synthase activity in cardiomyocytes after aerobic-anaerobic metabolic transition. 153 2

Mitochondrial and cytosolic functions were studied in vivo and in perfused livers from rats with secondary biliary cirrhosis induced by bile duct ligation for 5 wk and in sham-operated controls. The livers were stereologically analyzed, and mitochondrial and cytosolic functions were related to liver structure. Oxygen consumption by perfused livers expressed per stereologically determined mitochondrial volume was decreased by 49% in bile duct-ligated rats compared with control rats. Glucose production (expressed per mitochondrial volume) was reduced by more than 90% in bile duct ligation, whereas urea production was not affected. Lactate production, a cytosolic function, was increased fivefold in bile duct ligation, and both the lactate/pyruvate and the beta-hydroxybutyrate/aceto-acetate ratios were increased in the liver perfusate of bile duct-ligated rats. In comparison with control rats, the stereologically determined mitochondrial volume fraction per hepatocyte was increased by 28% in bile duct-ligated rats. Activities of mitochondrial enzymes expressed per area of mitochondrial membrane or per mitochondrial volume were either unchanged (ATPase, cytochrome c oxidase and glutamate dehydrogenase) or decreased (monoamine oxidase) in bile duct ligation. Thus in comparison with control rats, mitochondrial metabolism is impaired in perfused livers from bile duct-ligated rats; increased mitochondrial volume per hepatocyte may represent a strategy to maintain hepatic energy metabolism in rats with secondary biliary cirrhosis.
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PMID:Stereological and functional analysis of liver mitochondria from rats with secondary biliary cirrhosis: impaired mitochondrial metabolism and increased mitochondrial content per hepatocyte. 159 55

Full skin thickness burns covering 35 per cent of the total body surface of rabbits were followed by measurements of Na-K ATPase and arterial blood gas analyses, before and after the burn injury. Studies of the effects of intravenous fluids with different compositions showed that the active transport of the cell membrane was depressed in vivo immediately after a burn injury, mainly due to acidosis. This phenomenon was not completely corrected by the Baxter formula which uses conventional lactated Ringer's solution. However, an improvement was observed in those groups given the 'Enriched Lactate Solution' (ELS) containing large quantities of lactate as the base source. These results suggest that ELS, which positively corrected acidosis in accordance with its concentration, is very effective and more appropriate than the conventional lactated Ringer's solution for early burn resuscitation.
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PMID:Effects of enriched lactate solution (ELS) for resuscitation after burn injury. 164 63

K(+)-induced glial swelling results from an intricate interaction of transport and diffusion processes and metabolic stimulation, with many open questions remaining. Our concept of the major mechanisms involved can be summarized as follows: high extracellular K+ causes a burst-like stimulation of Na+/K+ ATPase and, hence, increases the metabolic demands. Lactate is produced; the cell is slightly acidified. To maintain a normal intracellular pH, the Na+/K+ antiporter extrudes protons and supplies Na+ for further Na+/K+ exchange. In addition, K+ ions enter the cell via membrane channels or furosemide-inhibitable transport. K+, Cl-, and lactate- ions accumulate as the osmotic basis for cell swelling. Later, cell volume normalizes slowly, a process involving lactate export and other, so far unidentified mechanisms. Taken together, the temporary swelling of glia at high K+ concentrations is the result of a homeostatic function, for the maintenance of a constant extracellular potassium concentration. Ion control ranges over volume control. In pathophysiologic states the loss of cell volume regulation may become a clinical problem, if cerebral swelling leads to an increase in intracranial pressure. It should be kept in mind, however, that elevation of the extracellular K+ concentration is not the only cause of glial swelling. Tissue acidosis, the release of neurotransmitters, especially glutamate, or free fatty acids are other mediator mechanisms initiating the swelling of glial elements. Only under controlled in vitro conditions can the individual significance of these factors be evaluated on a quantitative basis. Therapeutic approaches should be selected very carefully in order to maintain homeostatic mechanisms that are of utmost importance, especially after an insult to the brain.
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PMID:Glial ion transport and volume control. 178 55

During accommodation, the ciliary muscle is known to move forward-inward. This movement depends on the stiffness of the ciliary muscle connections with the scleral spur. These connections are mediated by the tips of the meridional muscle. If the tips are weakened by pharmacological or surgical means, accommodation suffers. For normal accommodation, it is therefore necessary that the tips stiffen before the contraction of the main part of the muscle. We have therefore looked at the primate eye for enzymatic and ultrastructural differences between the tips and the bulk of the muscle viz, the reticular and circular portion. Myosin ATPase was stained after either alkaline or acid preincubation. Lactate dehydrogenase (LDH), succinic dehydrogenase (SDH), NADH-tetrazoliumreductase (TR) and lipids were stained using conventional methods. The results of the enzyme staining were a modest difference between the meridional tips and the bulk. The tips stained stronger for ATPase following both preincubation methods, and for LDH, whereas the bulk cells stained stronger for SDH, NADH-TR and lipids. The tips contained fewer mitochondria and more myofibrils. In all these respects, the tips of the meridional muscle resemble the fast fibers of striated muscle.
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PMID:Histochemical differences within the ciliary muscle and its function in accommodation. 213 92

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