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)

Unilateral ischemia in the right cerebral hemisphere of the rat was induced by ligation of the right common carotid artery coupled with controlled hemorrhage to produce hypotension (25 +/- 8 mm/Hg). Where indicated after 30 min of ischemia, the withdrawn blood was reinfused to restore arterial pressure to normal. Mitochondria isolated from the ipsilateral hemisphere after 30 min of ischemia showed significantly lower respiratory rates than the organelles isolated from the contralateral side. Oxidation of NAD(+)-linked substrates was more sensitive to inhibition in ischemia (30%) than was of ferrocytochrome c (12%), succinate oxidation being intermediate. The activities of membrane-bound dehydrogenases (both NADH and succinate-linked) were also significantly lowered. Ischemia did not affect the cytochrome content of mitochondria. Respiratory activity (NAD(+)-linked) of mitochondria isolated from the ipsilateral hemisphere was twice as sensitive to inhibition by fatty acid as was of preparations from the contralateral side. Mitochondria isolated from cerebral cortex after 90 min of post-ischemic reperfusion showed no significant improvement in the rate of substrate oxidation. Adenine nucleotide translocase activity and energy-dependent Ca2+ uptake, both of which decreased significantly in mitochondria isolated from the ischemic brain, showed little recovery, on reperfusion. These observations suggested the strong possibility that the deleterious effects of ischemia on mitochondrial respiratory function might be mediated by free fatty acids that are known to accumulate in large amounts in ischemic tissues. The pattern of inhibition of ATPase activity was consistent with this view.
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PMID:Influence of cerebral ischemia and post-ischemic reperfusion on mitochondrial oxidative phosphorylation. 234 84

The rates of ATP synthesis and of ATP-driven NAD reduction have been measured in bovine heart submitochondrial particles as a function of the fraction of inhibited redox pumps (in titrations with either antimycin or rotenone) and of the fraction of inhibited ATPases (in titrations with DCCD). The flux control coefficients of the redox and ATPase proton pumps on the rates of ATP synthesis and of ATP-driven NAD reduction have been derived and found to be equal to 1 for both pumps; i.e., both pumps appear to be 'completely rate limiting'. A theoretical analysis of the inhibitor titration approach based on kinetic models of chemiosmotic coupling and on the theory of metabolic control is presented. This analysis (i) shows that the results of the single inhibitor titrations are incompatible with a delocalized chemiosmotic mechanism of energy coupling if the proton conductance of the membrane is sufficiently low with respect to the conductances of the pumps; and (ii) suggests an experimental approach based on the determination of the P/O and the respiratory control ratios at different degrees of inhibition of the proton pumps to establish the origin of the 'loose coupling' of submitochondrial particle preparations. Three independent types of observation show that the 'loose coupling' of the particle preparation is not mainly due to an increased membrane proton conductance. The same and other independent observations are consistent with the view that the loose coupling of submitochondrial particle preparation is due mainly to inhomogeneity, i.e. to the presence of a subpopulation of highly leaky non-phosphorylating vesicles respiring at maximal rate. The results as a whole together with the simulations and analysis presented lead to the conclusion that the mechanism of free-energy coupling in submitochondrial particles is not completely delocalized.
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PMID:Analysis of mechanisms of free-energy coupling and uncoupling by inhibitor titrations: theory, computer modeling and experiments. 245 May 79

(1) In electrically driven guinea-pig left atria, menadione (2-methyl-1,4-naphthoquinone) (1 to 20 mumol/l) and menadione sodium bisulfite (30 to 200 mumol/l) produced marked positive inotropic effects. Endogenously released catecholamines and histamine contributed to 80-85% of the effect, the residual 15-20% appearing as a direct effect. (2) In electrically driven guinea-pig ventricular strips, low micromolar concentrations of menadione (0.05 to 0.3 mumol/l) exerted a catecholamine-mediated small positive inotropic effect. (3) In both myocardial preparations, the increase in force of contraction was followed by a non-reversible rise of resting force. In its effects on cardiac contractility menadione resembled the thiol group blocking agent p-chloromercuribenzoate and H2O2. Pretreatment of atria with glutathione prevented the increase in resting force, while dithiothreitol only slightly delayed it. By contrast, the pretreatment with the NAD(P)H-quinone reductase (DT-diaphorase) inhibitor, dicumarol, markedly increased the rate of appearance of the toxic effect of menadione. (4) Among enzymatic and transport systems involved in the onset and control of cardiac contractility, sarcoplasmic reticulum Ca-ATPase was significantly inhibited by menadione after a long contact time. The inhibition was concentration-dependent and persistent, and was antagonized by addition of glutathione. (5) On the basis of these results, the increase in resting force caused by menadione appears to be related to an impairment of the thiol groups of proteins (Ca-ATPase), presumably caused by the drug per se.
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PMID:Effects of 2-methyl-1,4-naphthoquinone (menadione) on myocardial contractility and cardiac sarcoplasmic reticulum Ca-ATPase. 247 56

Bacterial plasmids have genes that confer highly specific resistances to As, Bi, Cd, Cu, Cr, Hg, Pb, Te, Zn, and other toxic heavy metals. For each toxic cation or anion, generally a different resistance system exists, and these systems may be "linked" together on multiple resistance plasmids. For Cd2+, AsO2-, AsO4(3)-, Hg2+, and organomercurials, DNA sequence analysis has supplemented direct physiological and biochemical experiments to produce sophisticated understanding. The cadA ATPase of S. aureus plasmids is a 727 amino acid membrane ATPase that pumps Cd2+ from the cells as rapidly as it is accumulated. This polypeptide is related by sequence to other cation translocating ATPases, including the membrane K+ ATPases of Escherichia coli and Streptococcus faecalis, the H+ ATPases of yeast and Neurospora, the Na+/K+ ATPases of vertebrate animals, and the Ca2+ ATPases of rabbit muscle. The conserved residues include the aspartyl residue that is phosphorylated, the lysine involved in ATP binding, and the proline within a membrane translocating region. The arsenate and arsenite translocating ATPase consists of 3 polypeptides (from DNA sequence analysis), including a recognizable ATP binding protein (arsA), an integral membrane protein (arsB gene), and a substrate specificity subunit (arsC gene). Inorganic mercury and organomercurial degradation is carried out by a series of about 6 polypeptides, including 2 soluble intracellular enzymes (organomercurial lyase and mercuric reductase). The latter is related by sequence and function to glutathione reductase and lipoamide dehydrogenase of prokaryotes and eukaryotes. These enzymes are dimeric, FAD-containing, NAD(P)H-dependent oxidoreductases. Other recognizable polypeptides in the mer system include a DNA-binding regulatory protein from the merR gene and a Hg2+ transport system consisting of a periplasmic Hg2(+)-binding protein (merP gene) and a membrane protein (merT gene) in gram negative systems.
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PMID:DNA sequence analysis of bacterial toxic heavy metal resistances. 248 81

The effect of rhein on the oxygen consumption, oxidative phosphorylation, ATPase activity and redox state of electron carriers of rat liver mitochondria has been studied. Rhein inhibits ADP- and uncoupler-stimulated respiration on various NAD-linked substrates and succinate, but stimulates state 4 respiration of mitochondria respiring on succinate. Experiments on specific segments of the respiratory chain showed that rhein does not inhibit electron flow through cytochrome oxidase. Electron flow through site 2, the ubiquinone-cytochrome b-cytochrome c1 complex, was also unaffected by rhein, which failed to inhibit the oxidation of duroquinol. Rhein affects oxidative phosphorylation by inhibiting both electron transfer and ADP-driven H+ uptake. The inhibition of succinate oxidation by rhein was found to take place at a point between succinate and ubiquinone, perhaps at the level of succinic dehydrogenase. Spectroscopic evidence demonstrated that rhein induces a NAD(P)H oxidation in mitochondria respiring either on endogenous substrates or on glutamate + malate, and an inhibition of the cytochrome b reduction by succinate. These observations, together with other evidence, suggest that rhein inhibits electron transport in rat liver mitochondria at the dehydrogenase-coenzyme level, particularly when the electron carriers are in a relatively oxidized state and/or when the inner membrane-matrix compartment is in the condensed state.
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PMID:Sites of inhibition of mitochondrial electron transport by rhein. 252 79

Hypocrellin A (HA)-sensitized photoinactivation of enzymes in human erythrocyte membrane, including AchE, GPDH, Na(+)-K+ ATPase, Ca2(+)-Mg2+ ATPase were studied in this paper. The sensitivity of these four enzymes inactivated by HA and light are as following order: Ca2(+)-Mg2+ ATPase greater than Na(+)-K+ ATPase greater than GPDH greater than AchE. The relationship among ATPase inactivation, sulfhydryl photoinactivation and lipid peroxidation was also investigated. Results show that SH group photooxidation probably is one of the major reasons of enzyme inactivation whereas lipid peroxidation has little effect. The isolated GPDH was less sensitive than that membrane-bound, GSH, NAD acted protectively on GPDH and ATPase respectively. The evidence of electrophoresis and protein intrinsic fluorescence showed that protein structure did not change significantly even though most activity had lost in case of GPDH.
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PMID:[The study on hypocrellin A-sensitized photoinactivation of enzymes of human erythrocyte membranes]. 253 19

ADP-ribosylation of skeletal muscle actin by Clostridium perfringens iota toxin increased the rate of exchange of actin-bound [gamma-32P]ATP by unlabelled ATP about twofold. Increased exchange rates were observed with ATP and ATP[gamma S], much less with ADP but not with AMP or NAD. ADP-ribosylation of skeletal muscle actin reduced "basal" and Mg2+ (1 mM)-induced ATP hydrolysis by about 80%. Similar inhibition of ATP hydrolysis was observed with liver actin ADP-ribosylated by Clostridium botulinum C2 toxin. The data indicate that ADP-ribosylation of actin at Arg-177 largely affects the ATP-binding and ATPase activity.
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PMID:ADP-ribosylation of actin causes increase in the rate of ATP exchange and inhibition of ATP hydrolysis. 253 99

The enzyme activity of Mg++-ATPase, Na+-K+-ATPase, 5'-nucleotidase and NAD(P)H-oxidase was cytochemically detected at the ultrastructural level in mouse peritoneal macrophages infected with untreated and with specific antibody-coated Toxoplasma gondii tachyzoites. The Mg++-ATPase and 5'-nucleotidase were distributed throughout the macrophages' plasma membrane but were not observed in the membrane lining endocytic vacuoles containing ingested parasites; however, Na+-K+-ATPase activity was detected in the macrophages' plasma membrane as well as in the parasitophorous vacuoles that contained untreated or specific antibody-coated parasites. Reaction product, indicative of NAD(P)H-oxidase, was detected in the parasitophorous vacuoles that contained only specific antibody-coated parasites.
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PMID:Cytochemical localization of plasma membrane enzyme markers during interiorization of tachyzoites of Toxoplasma gondii by macrophages. 254 39

Mitochondrial functions were investigated in permeabilized rat liver cells. For permeabilization isolated hepatocytes were treated with digitonin using a perifusion technique. After permeabilization the cell count was almost unchanged, and the mitochondrial marker enzyme, glutamate dehydrogenase, was decreased to as little as 83%. The mitochondria in permeabilized cells were functionally intact, a finding evident from a marked stimulation of respiration by ADP, inhibition by carboxyatractyloside, and stimulation by uncoupler. The ADP-stimulated and uncoupled respiration rates with succinate as substrate were comparable to those reported for isolated mitochondria, whereas the rates with NAD(+)-dependent substrates were somewhat higher. The ratios between ADP-stimulated and carboxyatractyloside-inhibited respiration rates were in the range noted for isolated mitochondria with identical substrates. Almost unchanged ADP-stimulated and carboxyatractyloside-inhibited respiration rates were found for at least 180 min after digitonin treatment. The preparation exhibited only a low extramitochondrial ATPase activity which was partially inhibited by vanadate.
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PMID:Characterization of mitochondrial functions in digitonin-permeabilized rat liver cells. 261 33

Liver mitochondria isolated from vanadate-administered rats showed increased (20-25%) rates of oxidation of both NAD(+)-linked substrates and succinate. Respiratory control index and ADP/O were unaffected by the treatment. Dormant and uncoupler-stimulated ATPase activity also was not affected by vanadate administration. Membrane-bound, electron-transport-linked dehydrogenase activities (both NAD(+)- and succinate-dependent) increased by 15-20% on vanadate treatment. Mitochondrial alpha-glycerophosphate dehydrogenase activity increased by 50% on vanadate administration. The above effects of vanadate on oxidoreductase activities could be prevented by the prior administration of antagonists to alpha-adrenergic receptors. Substrate-dependent H2O2 generation by mitochondria also showed an increase on vanadate administration.
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PMID:Increase in alpha-glycerophosphate dehydrogenase and other oxidoreductase activities of hepatic mitochondria on administration of vanadate to the rat. 262 57


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