EC:3.6.1.3 - FACTA Search

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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)

Impairment of mitochondrial respiration in acute myocardial ischemia was studied in the inner and outer layers of canine heart muscle by the determination of oxidative phosphorylation and several respiratory enzymatic activities of isolated mitochondria. As early as 15 min after coronary ligation, the respiratory control ratio decreased as the result of a reduction in the oxygen consumption rate in state 3 to 72% of the control ratio in the inner layer. However, in the outer layer, it dropped to 74% after 1 to 2 hours. The oxygen consumption rate in state 4 and the ADP/O ratio were not significantly altered in both cardiac sublayers. In parallel with a decrease in oxygen consumption rate in state 3, Mg++-dependent ATPase and DNP-stimulated ATPase activities of isolated mitochondria reduced significantly in both sublayers, followed by a sequential increase in Mg++-dependent ATPase activity. Succinate dehydrogenase activity increased in ischemia for 3 hours in the inner layer, and for 6 hours in the outer layer, respectively; cytochrome oxidase activity reduced in both sublayers during the same period. Mitochondrial respiration is impaired in acute myocardial ischemia much earlier in the inner layer by a decrease in oxygen consumption rate in state 3, and there is a chronological delay in the development of ischemic mitochondrial changes in the outer myocardium.
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PMID:Regional changes in mitochondrial respiration in acute myocardial ischemia. Comparison of the inner and outer heart muscles. 609 79

Coronary arteries and arterioles in the left ventricle from the primate Macaca fascicularis were histochemically examined to evaluate their metabolic profiles. Succinate dehydrogenase and cytochrome oxidase activities were assessed to evaluate aerobic metabolic capacity, while myosin ATPase activity was determined as an index of ATP utilization for contraction. Anaerobic capacity was evaluated from lactate dehydrogenase and glycogen reactivity. Glucose-6-phosphate dehydrogenase was examined to determine capacity of the hexose-monophosphate-shunt, while the amounts of deoxyribonucleicc and ribonuclei acids were assessed as possible indicators of protein synthesis. Succinate dehydrogenase and cytochrome oxidase demonstrated slight reactivity in both coronary arteries and arterioles indicating a low capacity for aerobic metabolism. Myosin ATPase showed strong activity in arteries and even stronger reactivity in arterioles, suggesting that arteriolar smooth muscle is more capable of utilizing ATP. Glucose-6-phosphate dehydrogenase activity was extremely low in both arteries and arterioles, while deoxyribonucleic and ribonucleic acids demonstrated only slight to moderate reactivity in both arteries and arterioles, indicating that under normal conditions the coronary vasculature appears quite stable with little cell proliferation.
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PMID:A histochemical evaluation of metabolism in the coronary vasculature of the primate. 617 63

A histochemical study of the metabolism of rat renal arteries and arterioles. Rat renal arteries and arterioles were examined histochemically to determine their metabolic profiles. Succinate, malate and NAD-isocitrate dehydrogenase, cytochrome oxidase and ubiquinone were assessed to determine aerobic metabolism. Glucose-6-phosphate dehydrogenase and DPN diaphorase were evaluated to determine hexose-monophosphate-shunt activity. Anaerobic metabolism was evaluated via lactate dehydrogenase, and the substrate, glycogen. Gomori's lipase, beta-hydroxybutyrate dehydrogenase and amounts of neutral fat and free fatty acids were assessed as indicators of lipid utilization. Myosin ATPase activity was evaluated as an index of ATP utilization for contraction. Deoxyribonucleic and ribonucleic acids were appraised as indicators of protein synthesis. In general, the oxidative enzymes and myosin ATPase demonstrate considerable activity in renal arteries and arterioles which suggests aerobic metabolism and ATP usage. Renal arteries and arterioles also appear capable of anaerobic metabolism as indicated by strong lactate dehydrogenase reactivity and by the presence of slight to moderate quantities of glycogen, while high levels of glucose-6-phosphate dehydrogenase and moderate amounts of deoxyribonucleic acid suggest a potential for beta-hydroxybutyrate dehydrogenase, minimal lipase activity, and the absence of fatty acids with substantial amounts of neutral fat, indicate limited lipid catabolism.
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PMID:A histochemical study of the metabolism of rat renal arteries and arterioles. 620 11

The antitumour antibiotic, adriamycin, inhibited oxidative phosphorylation in freshly prepared mitochondria from the heart, liver and kidney of the rat. It abolished respiratory control and stimulated ATPase activity. Succinate oxidation by heart mitochondria was extremely sensitive to the drug when hexokinase was present in the reaction medium. The sensitive site has been identified to lie in the region between the succinate dehydrogenase flavoprotein and ubiquinone of the respiratory chain.
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PMID:Inhibition of mitochondrial oxidative phosphorylation by adriamycin. 621 26

Succinate dehydrogenase activity (SDH) was estimated kinetically in individual muscle fibres from the rabbit tibialis anterior, in cryostat sections using computer-linked microphotometry to record initial reaction velocities. These were correlated with fibre type based on myofibrillar actomyosin ATPase staining. Analysis of type IIA and IIB fibre populations in control muscles demonstrated wide variations in SDH activity between fibres of identical myosin ATPase type, with a considerable overlap in oxidative activities of the IIA and IIB populations. Muscles chronically stimulated via the peroneal nerve, using two different frequency patterns, showed increases in SDH activity which were primarily located in the type IIB fibres. This increase was observed both in muscles stimulated continuously at 10 Hz, and when similar numbers of stimuli were applied in brief trains at higher frequency. An earlier onset and more rapid rate of increase of SDH activity was seen with 10 Hz stimulation than with higher frequency, though the levels after 14 days of either pattern of stimulation were not significantly different.
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PMID:Response of succinate dehydrogenase activity in fibres of rabbit tibialis anterior muscle to chronic nerve stimulation. 622 3

In isolated sarcoplasmic reticulum vesicles, calcium-chelating but non-calcium-precipitating dicarboxylates, such as maleate and succinate, stimulated ATP-dependent Ca2+ accumulation and its ensuring spontaneous Ca2+ accumulation and its ensuring spontaneous Ca2+ release, and Ca2+-dependent ATPase activity (Chu, A., Tate, C. A., Bick, R. J., Van Winkle, W. B., and Entman, M. L. (1983) J. Biol. Chem. 258, 1656-1664). We further examined the effect of dicarboxylates on enzyme turnover. The anionic buffer maleate enhanced the rate of rapid acyl phosphoenzyme hydrolysis compared to that in the zwitterionic buffer piperazine-N,N'-bis(2-ethanesulfonic acid) but had no effect on the phosphoenzyme formation. The presence of a calcium-precipitating anion, oxalate, or a Ca2+ ionophore, A23187, eliminated the differences observed in the phosphoenzyme decay between the two buffers, but accelerated the rate of decay. Furthermore, the catalytic activity of the purified Ca2+-dependent ATPase was not affected by maleate, whether oxalate was present or not. [14C]Succinate was transported into the sarcoplasmic reticulum in a manner which was dependent on Ca2+ transport, and occurred over a similar time course as Ca2+ accumulation/release. The net succinate uptake was equivalent to the amount of succinate-stimulated Ca2+ accumulation. Rapid efflux of both [14C]succinate and 45Ca2+ was induced by A23187, whereas the efflux induced by ethylene glycol bis(beta-aminoethylether)-N,N,N',N'-tetraacetic acid was slower and less compared to A23187. Succinate accumulation exhibited saturation kinetics with positive cooperativity (Km congruent to 20 mM; Hill coefficient = 1.70). When maleate and succinate were both present, they were equipotent, and had an additive stimulatory effect on peak 45Ca2+ accumulation at low concentrations. Maleate was a competitive inhibitor of succinate accumulation (Ki approximately equal to 17 mM; Hill coefficient = 1.75). KCl in the presence or absence of valinomycin did not influence succinate accumulation or release. The data suggest that succinate accumulation is Ca2+-dependent, but occurs at a saturable, divalent, anion-specific site. While this carrier or channel requires Ca2+ transport, it may be controlled by additional factors as well.
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PMID:Anion effects on in vitro sarcoplasmic reticulum function. Co-transport of anions with calcium. 622 90

Trifluoperazine inhibits ADP-stimulated respiration in mung bean (Phaseolus aureus) mitochondria when either NADH, malate, or succinate serve as substrates (IC50 values of 56, 59, and 55 microM, respectively). Succinate:ferricyanide oxidoreductase activity of these mitochondria was inhibited to a similar extent. The oxidation of ascorbate/TMPD was also sensitive to the phenothiazine (IC50 = 65 microM). Oxidation of exogenous NADH was inhibited by trifluoperazine even in the presence of excess EGTA [ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid] (IC50 = 60 microM), indicating an interaction with the electron transport chain rather than with the dehydrogenase itself. In contrast, substrate oxidation in Voodoo lily (Sauromatum guttatum) mitochondria was relatively insensitive to the phenothiazine. The results suggest the bc1 complex to be a major site of inhibition. The membrane potential of energized mung bean mitochondria was depressed by micromolar concentrations of trifluoperazine, suggesting an effect on the proton-pumping capability of these mitochondria. Membrane-bound and soluble ATPases were equally sensitive to trifluoperazine (IC50 of 28 microM for both), implying the site of inhibition to be on the F1. Inhibition of the soluble ATPase was not affected by EGTA, CaCl2, or exogenous calmodulin. Trifluoperazine inhibition of electron transport and phosphorylation in plant mitochondria appears to be due to an interaction with a protein of the organelle that is not calmodulin.
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PMID:Trifluoperazine inhibition of electron transport and adenosine triphosphatase in plant mitochondria. 632 89

Our purpose was to test the hypothesis that the capillarity of mammalian skeletal muscles is correlated with the oxidate capacity of muscle fibers, or with the capacity for maximum blood flow. Capillarity of skeletal muscles from several species was determined using histochemical demonstration of phosphatase activity of capillary endothelium. Serial sections were incubated for succinate dehydrogenase activity as an indicator of muscle fiber oxidative capacity, and for myofibrillar ATPase activity. three types of muscle fibers were identified. Fiber area was determined by planimetry of projected cross sections. Succinate oxidase activity of whole homogenates was determined by differential respirometry. Muscle blood flow was determined experimentally or data were obtained from the literature. No consistent relation was observed for the different fiber types in the number of adjacent capillaries. Capillary density was negatively correlated with mean fiber area. Among adult animals of several species, skeletal muscles representing a 17-fold range of oxidative capacity demonstrated no relation between capillarity and oxidative capacity or muscle blood flow at maximum oxygen uptake. We find no support for relations between oxidative capacity of muscle blood flow and the capillarity of whole muscle or individual fibers and reject the hypothesis.
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PMID:Oxidative capacity, blood flow, and capillarity of skeletal muscles. 644 96

1. Succinate dehydrogenase (SDH) activity was assessed in situ in single fibres of cross-sectioned extensor hallucis longus, extensor digitorum longus, and soleus muscles of rat by means of microphotometric recordings of initial maximum reaction rates. 2. Each fibre assessed for SDH activity was subjectively classified into myosin subgroups by its histochemical reaction for myofibrillar actomyosin ATPase (myosin ATPase) following preincubation at pH 4.6 according to Brooke & Kaiser (1970). 3. The majority of fibres classified into myosin types I and IIa were highly reactive for SDH, such that those myosin groups could be interchangeable with the metabolic subgroups of Peter, Barnard, Edgerton, Gillespie & Stempel (1972); myosin I = slow-twitch oxidative, myosin IIa = fast-twitch oxidative glycolytic. 4. The myosin type IIb fibres, however, demonstrated marked variability in activity levels of SDH. Over 40% of those fibres had high SDH activity, and thus could not be equated with the metabolic subgroup fast-twitch glycolytic. 5. The histochemical reaction for myosin ATPase in muscle fibres therefore cannot be used as a reliable means to predict the fibres' metabolic characteristics.
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PMID:Succinate dehydrogenase activity in fibres classified by myosin ATPase in three hind limb muscles of rat. 645 51

It has been shown that the induction of earlier described system of potassium-dependent transport of hydrogen ions in mitochondria at low pH values of the incubation medium is inhibited by the inhibitors of mitochondria respiratory chain and ATPase. It has been found that antimycin and oligomycin suppress the efflux of potassium ions from mitochondria in the presence of succinic acid. The uncoupler (FCCP) turns the effect of ATPase inhibitors to the efflux of potassium ions and acceleration of mitochondria respiration under experimental conditions. At the same time TMPD removes the effect of antimycin on potassium ion efflux from uncoupled FCCP of mitochondria. The data obtained are explained in terms of the postulate that under experimental conditions along with the system of potassium-dependent ion transport there appears leakage of protons through the ATPase channel. A conclusion is made concerning the control of ion transport induction in mitochondria by the enzymes of oxidative phosphorylation system.
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PMID:[Control of the induction of ion transport through mitochondrial membranes by the enzymes of the oxidative phosphorylation system]. 646 81

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