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)

Quercetin is a naturally occurring flavonoid, chemically related to cromolyn. Quercetin has been shown to inhibit antigen- and mitogen-induced histamine release from rat mast cells and basophils of subjects with hay fever, to increase cyclic adenosine monophosphate (AMP) in Ehrlich ascites tumor cells and to inhibit phosphodiesterase and certain adenosine triphosphatase (ATPase) systems. We have studied the effect of quercetin on mouse T cell responses. When 5 x 10(-6) to 5 x 10(-5) M quercetin is present throughout either allogeneic mixed leukocyte culture (MLC) or cytotoxic T lymphocyte (CTL) assay culture, inhibition of in vitro CTL generation or effector function results, respectively (inhibition is 75-100% at 2 x 10(-5) M and 100% at 5 x 10(-5) M). Quercetin also inhibits concanavalin A-induced DNA synthesis. Addition of Cu2+ strongly blocks the effects of quercetin in all systems tested, in a concentration dependent fashion, while Mg2+ and Ca2+ have little or no effect and Mn2+ and Co2+ have a significant but slight blocking effect on quercetin-mediated inhibition of both CTL generation and function. In kinetic studies, evidence was obtained for the existence of a major quercetin-sensitive step in CTL induction, between 3 and 24 hr of the MLC.
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PMID:Quercetin inhibition of the induction and function of cytotoxic T lymphocytes. 621 17

The Ca2+-dependent ATPase was solubilized from rat heart sarcolemmal membranes upon digestion with trypsin and was found to be different from Ca2+-stimulated Mg2+-dependent ATPase (Dhalla, N. S., Anand-Srivastava, M. B., Tuana, B. S., and Khandelwal, R. L. (1981) J. Mol. Cell. Cardiol. 13, 413-423). The enzyme was purified by high speed centrifugation, ammonium sulfate fractionation, and column chromatography and was seen as a single protein band in nondenaturing polyacrylamide gel electrophoresis. In sodium dodecyl sulfate-acrylamide gels, the enzyme dissociated into two subunits or fragments with molecular weights of about 55,000 and 12,000. The molecular weight of the enzyme, estimated by gel filtration on a Sephadex G-100 column, was found to be about 67,000. The enzyme utilized ATP with a Km of 0.20-0.26 mM but was also able to utilize ITP, CTP, GTP, and ADP as substrates at much lower rates. It was activated by Ca2+ with a Ka of 0.13-0.21 mM; it was also activated by other cations in the order Ca2+ greater than Mn2+ greater than Sr2+ greater than Ba2+ greater than Mg2+. Divalent cations like Cu2+, Ni2+, and Mg2+ were potent inhibitors. The enzyme was insensitive to ouabain, verapamil, oligomycin, cyanide, and vanadate but was markedly inhibited by N-ethylmaleimide. Calmodulin failed to stimulate Ca2+-dependent ATPase and instead inhibited slightly. Unlike K+, Na+ produced a marked inhibition of the Ca2+-dependent ATPase activity, and this inhibition was associated with an 8- 10-fold decrease in the affinity of the enzyme for Ca2+. The competitive action of Na+ indicates that the Ca2+-dependent ATPase may be a site of Na+-Ca2+ antagonism in the cell membrane.
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PMID:Purification and characterization of a Ca2+-dependent ATPase from rat heart sarcolemma. 621 55

The rat liver 26,500-dalton ATPase binding protein and beef heart oligomycin sensitivity conferral protein are able to interact with the rat liver Type II ATPase to form discrete complexes. The equilibrium constants for these interactions are similar and each forms a 1:1 complex with the ATPase. The reassociated complex of Type II ATPase and 26,500-dalton ATPase binding protein or of oligomycin sensitivity conferral protein and Type II ATPase has properties similar to that of Type I ATPase. Dimerization of oligomycin sensitivity conferral protein by oxidation with copper phenanthroline chelate abolishes its ability to interact with the Type II ATPase. The isoelectric point and amino acid composition of the 26,500-dalton ATPase binding protein and oligomycin sensitivity conferral protein are similar. The polypeptide patterns produced by cyanogen bromide cleavage indicates a similar but nonidentical pattern to the 26,500-dalton ATPase binding protein and the oligomycin sensitivity conferral protein.
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PMID:Subunit interaction in the mitochondrial H+-translocating ATPase. Association of the 26,500-dalton atpase binding protein and oligomycin sensitivity conferral protein with F1-ATPase. 622 11

There have been several reports on the involvement of a 29,000-dalton protein in the regulation of ATP synthesis and 32Pi-ATP exchange (Zimmer, G., Mainka, L., and Heil, B. M. (1982) FEBS Lett. 150, 207-210). The present communication demonstrates that incubation of electron transport particles with 50 microM copper-o-phenanthroline results in reversible loss of 32Pi-ATP exchange but not of oligomycin-sensitive ATPase. Dependence of the inhibition on oxygen, its prevention by EDTA, ATP, or 2-mercaptoethanol, and subsequent restoration of the activity by 2-mercaptoethanol point to a thiol-disulfide interchange as the cause of inhibition. Analysis of copper-o-phenanthroline-treated samples by polyacrylamide gel electrophoresis conducted under nonreducing conditions shows four major changes. There is a decrease in the staining intensity of two bands with molecular weights of 34,000 and 29,000 with concomitant appearance of two new bands with molecular weights of 28,000 and 58,000-60,000. The 34,000-dalton band is tentatively identified as the phosphate transport protein. The 28,000-dalton component is formed by intramolecular and the 58,000-60,000-dalton component by intermolecular cross-linking of the 29,000-dalton protein. Pretreatment of electron transport particles with 2 mM N-ethylmaleimide does not affect 32Pi-ATP exchange or its inhibition by copper-o-phenanthroline but prevents cross-linking of the 34,000- and 29,000-dalton proteins. Evidence is presented to demonstrate that the purified H+-ATPase preparation has a single 29,000-dalton protein, identical to the adenine nucleotide translocase, and that it is not essential for 32Pi-ATP exchange or oligomycin-sensitive ATPase.
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PMID:Identification of the 29,000-dalton protein and its relevance to oligomycin-sensitive 32Pi-ATP exchange in bovine heart electron transport particles. 623 28

Experiments are reported demonstrating that differential rates of inactivation of the histochemical staining for myofibrillar actomyosin ATPase in rat skeletal muscle fibers exist following inclusion of low concentrations of Cu2+ in the preincubation medium. This response of rat muscle occurs at near neutral (7.40), acid (4.60), and alkaline (10.30) pH. The response to Cu2+ appears to result from a binding of Cu2+ onto the myofibrillar complex, probably on myosin itself, as it can be reversed by soaking of the pretreated muscle sections in sodium cyanide or the Cu2+ chelator diethyldithiocarbamate. The pattern of modification of the staining pattern following pretreatment with Cu2+ is the mirror image of that produced by pretreatment with acid. The results demonstrate that the inclusion of Cu2+ in the preincubation media for the myofibrillar actomyosin ATPase can be a useful tool to differentiate fiber types. They also support the earlier conclusion that three distinct types of type II fibers can be identified in rat skeletal muscle based on the histochemical staining for myofibrillar actomyosin ATPase.
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PMID:Identification of fiber types in rat skeletal muscle based on the sensitivity of myofibrillar actomyosin ATPase to copper. 623 43

Severe copper deficiency was induced in rats by rearing nursing dams and their offsprings on a semisynthetic diet comprising all the requisite nutrients and trace metals except copper. The copper-deprived rats exhibited growth retardation, severe anaemia, loss of caeruloplasmin, decrease of cytochrome oxidase, accumulation of salt-soluble collagen and a drastic decrease in iron in plasma and liver. Apart from these characteristic signs of deficiency, a marked inhibition of protein synthesis was found to occur both in vivo and in cell-free liver preparations. The curtailed ability to carry out endogenously coded amino acid incorporation into protein contrasted with the unimpaired poly(U)-acid-directed phenylalanine polymerization. This inhibition pattern, as well as the attendant disaggregation of the liver polyribosomes, suggested that the primary biosynthetic lesion was located at the stage of peptide-chain initiation. Concurrently with this alteration there was a pronounced depletion of the hepatic ATP content, associated with a parallel depression of mitochondrial respiration and an enhancement of ATPase activity. Supplementation of the copper-deficient diet with a 2-4-fold excess of iron (relative to the standard diet) prevented growth retardation and anaemia and restored normal energy metabolism, as well as unimpaired protein-synthesizing capacity. The conclusion that these disturbances were primarily determined by the secondary iron deficiency was also borne out by the finding that similar alterations occurred in rats maintained on a copper-sufficient but iron-deficient diet. On the other hand, the iron-fortified diet failed to reverse the other signs of copper deficiency, namely the loss of caeruloplasmin, the diminished rate of cytochrome oxidase and the increase of soluble collagen. The interrelations between the various biochemical lesions induced by deprivation of copper or iron are discussed and the possible role of ATP depletion in determining the derangement of protein synthesis is considered.
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PMID:Biochemical lesions in copper-deficient rats caused by secondary iron deficiency. Derangement of protein synthesis and impairment of energy metabolism. 625 58

In previous studies we had demonstrated that in the presence of 0.25 mM Cu2+ and 1.25 mM o-phenanthroline, cross-linking of the alpha-subunits of Na+ + K+)-dependent adenosine triphosphatase was induced by the addition of Na+ + ATP, and that the formation of the alpha,alpha-dimer was preceded by that of phosphoenzyme. The purpose of the present studies was the further evaluation of the role of phosphoenzyme in the process of cross-linking. Na+ + UTP did not induce cross-linking unless Mg2+ was also added. In contrast, Na+ + ATP-induced cross-linking did not require the addition of Mg2+. The different effects of ATP and UTP in the absence of added Mg2+ could be accounted for by the presence in the enzyme preparation of bound Mg2+ which supported enzyme phosphorylation by ATP but not by UTP. When the enzyme was phosphorylated by Pi, in the presence of Mg2 and ouabain, and the exposed to Cu2+ and o-phenanthroline, the alpha,alpha-dimer was obtained. Under these conditions, Na+ blocked both phosphorylation and cross-linking. These results indicate that it is the formation of phosphoenzyme per se that leads to conformational transitions favorable to cross-linking. They also suggest that Cu2+ and o-phenanthroline participate in the cross-linking reaction, but not in the phosphorylation reactions. In the digitonin-treated enzyme, Na+ and ATP induced the formation of phosphoenzyme, but not that of alpha,alpha-dimer. These findings indicate that in addition to phosphorylation, a proper orientation o alpha-subunits in an oligomer is also necessary for cross-linking.
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PMID:(Na+ + K+)-ATPase : phosphorylation-dependent cross-linking of the alpha-subunits in the presence of Ca2+ and o-phenanthroline. 626 75

A new method of estimation of the distance RLM between the nitroxide spin label (NSL) and the paramagnetic metal ions (PMI), such as Co2+, Ni2+, Cu2+, Mn2+, VO2+, Cr3+, Fe3+ is suggested. The influence of the longitudinal relaxation time T1 of the PMI on the line shape of the NSL at 77 degrees K has been studied. It was found that the efficiency of the dipole-dipole interaction between NSL and PMI depends strongly on the T1 value of the PMI. Measurements of the RLM for 4 spin-labelled proteins (haemoglobin, nitrogenase, cytochrome P450 and Ca2+-dependent ATPase) by three various methods have proved the correctness of the new method and also its simplicity.
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PMID:[New method for measuring the distances between the nitroxide spin label and paramagnetic metal ions in macromolecules]. 626 67

Rats were coexposed to lead (Pb) and Copper (Cu) through drinking water and intraperitoneally, respectively, for a period of 21 days. Neurochemical studies in these rats showed significant reduction in the activity of adenosine triphosphatase, cytochrome-c-oxidase, diaphorase and in the levels of biogenic amines in the rats simultaneously exposed to the two metals compared to either of the metal alone. These neurotoxic effects were not related to the contents of either of the metals in the brain since their accumulation after combined exposure was much less than observed after individual exposure to Pb or Cu.
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PMID:Neurochemical changes in rats coexposed to lead and copper. 628 90

Effects of the S-S cross-linking reagent, Cu2+-o-phenanthroline (CuP), on salt conductances of gastric vesicle membranes in which the (H+ + K+)-ATPase is present were studied. CuP caused a dose-dependent increase in the KCl conductance of the vesicle membrane. The increase of the KCl conductance caused by 10 microM CuP was completely prevented by 0.3 mM ATP or 0.3 mM adenyl 5'-yl imidodiphosphate and partially prevented by ADP. The NaCl conductance was also increased by the CuP reaction. However, CuP has no effect on the K2SO4 conductance. Pretreatments of vesicles with 0.1 mM 4-acetoamide-4'-isothiocyanostilbene-2,2'-disulfonate, an anion channel inhibitor, completely blocked the effect of CuP. Thus, these effects of CuP are ascribable to the increase in the anion conductance of the vesicle membrane produced by S-S cross-linking. Furthermore, tyrosine-tyrosine cross-linking with tetranitromethane also increases the anion conductance. Probable roles of the opening of the closed anion channel of the ATPase were discussed in regard to the acid secretory mechanism of gastric mucosa.
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PMID:Effects of Cu2+-o-phenanthroline on gastric (H+ + K+)-ATPase. Evidence for opening of a closed anion conductance by S-S cross-linkings. 629 23

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