Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.3.14 (ATP synthase)
 7,042 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The principle organelle marker enzymes and various adenosine triphosphatase (ATPase) activities were studied in human skeletal muscle. The reproducibility of each assay was established under optimal and linear assay conditions. Whole homogenates of normal human quadriceps muscle were fractionated by centrifugation on a continuous sucrose density gradient. Gradient fractions were assayed for organelle marker enzymes and frequency-density histograms were constructed for each enzyme. Good resolution of the principal organelles was obtained. Adenosine triphosphatase (ATPase) was assayed under conditions of maximal stimulation by Ca2+, or Mg2+ or Na2+, K+ + Mg2+. The distribution of these activities was compared with those of the organelle marker enzymes. Both Ca2+-ATPase and Mg2+-ATPase were distributed to both the mitochondrial and myofibrillar fractions but could be distinguished by the inhibition of mitochondrial ATPase with sodium azide. The distribution of Na+, K+-activated, Mg2+-dependent ATPase (Na+, K+ ATPase) activity suggested a sarcolemmal localization. The results of electron microscopy of gradient fractions were consistent with the organelle content of the fractions as determined by enzymic analyses. These studies provide reference information for the subsequent investigation of organelle pathology of human muscle disorders.
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PMID:Analytical subcellular fractionation of normal human skeletal muscle by sucrose density gradient centrifugation. 613 12

Maintenance of cell calcium homeostasis and transepithelial transport of this cation require its extrusion from the cell against a steep electrochemical gradient. Because it has been proposed that a membrane Ca-ATPase activated by micromolar concentrations of Ca2+ prevailing in the cell participates in these processes, we attempted in this study to determine whether such an enzyme is present in the rabbit nephron. A magnesium-dependent ATPase, maximally activated by Ca2+ (Ca-Mg-ATPase) concentrations between 1.1 and 2.3 microM (apparent Km = 0.3-0.4 microM), was found in all segments of the nephron. Ca-Mg-ATPase (pmol.mm-1.h-1) was highest in the distal convoluted tubule (243) and cortical collecting tubule (208), intermediate in the proximal convoluted tubule (140) and medullary thick ascending limb of Henle's loop (135), and lower in the pars recta (97), cortical thick ascending limb (50), and medullary collecting tubule (51). The enzyme was insensitive to ouabain and vanadate, but was inhibited by ruthenium red in a dose-dependent manner (Ki congruent to 2.10(-6) M). Sodium azide, an inhibitor of mitochondrial ATPase, did not affect Ca-Mg-ATPase, suggesting that the enzyme was located in the plasma membrane. The Ca-Mg-ATPase activity measured in most segments of the rabbit nephron in this study appears sufficient to account in theory for the active component of the unidirectional (lumen-to-bath) calcium flux found in the corresponding region of the nephron with in vitro single tubule microperfusion techniques.
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PMID:High-affinity Ca-Mg-ATPase along the rabbit nephron. 617 29

The paper analyzes the relationship between membrane potential (delta psi), steady state pCao (-log [Ca2+] in the outer aqueous phase) and rate of ruthenium-red-induced Ca2+ efflux in liver mitochondria. Energized liver mitochondria maintain a pCao of about 6.0 in the presence of 1.5 mM Mg2+ and 0.5 mM Pi. A slight depression of delta psi results in net Ca2+ uptake leading to an increased steady state pCao. On the other hand, a more marked depression of delta psi results in net Ca2+ efflux, leading to a decreased steady-state pCao. These results reflect a biphasic relationship between delta psi and pCao, in that pCao increases with the increase of delta psi up to a value of about 130 mV, whereas a further increase of delta psi above 130 mV results in a decrease of pCao. The phenomenon of Ca2+ uptake following a depression of delta psi is independent of the tool used to affect delta psi whether by inward K+ current via valinomycin, or by inward H+ current through protonophores or through F1-ATP synthase, or by restriction of e- flow. The pathway for Ca2+ efflux is considerably activated by stretching of the inner membrane in hypotonic media. This activation is accompanied by a decreased pCao at steady state and by an increased rate of ruthenium-red-induced Ca2+ efflux. By restricting the rate of e- flow in hypotonically treated mitochondria, a marked dependence of the rate of ruthenium-red-induced Ca2+ efflux on the value of delta psi is observed, in that the rate of Ca2+ efflux increases with the value of delta psi. The pCao is linearly related to the rate of Ca2+ efflux. Activation of oxidative phosphorylation via addition of hexokinase + glucose to ATP-supplemented mitochondria, is followed by a phase of Ca2+ uptake, which is reversed by atractyloside. These findings support the view that Ca2+ efflux in steady state mitochondria occurs through an independent, delta psi-controlled pathway and that changes of delta psi during oxidative phosphorylation can effectively modulate mitochondrial Ca2+ distribution by inhibiting or activating the delta psi-controlled Ca2+ efflux pathway.
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PMID:Regulation of Ca2+ efflux in rat liver mitochondria. Role of membrane potential. 619 82

Purified F1-ATPase from Micrococcus lysodeikticus contains zinc in the amount of 1 mol/mol of enzyme. This zinc content correlates with standard values of ATPase activity (assayed with Ca2+-ATP as substrate) of the protein, i.e. 5--6 mumol substrate hydrolysed . min-1 . mg-1. Prolonged dialysis against EDTA results in a zinc-free protein which concomitantly loses its ATPase activity. Chelators such as Zincon, EDTA and L-cysteine inhibit the ATPase activity in concentration and/or time dependence related to their affinity for the metal ion involved. Reconstitution of the metallo (Zn2+) protein is demonstrated by the incorporation to the zinc-free protein of 65Zn2+ in amount near the 1 mol/mol of enzyme. This incorporation was concomitant with the regain of ATPase activity. The inhibition by EDTA and Zincon is reversed specifically by Zn2+ while the inhibition by EDTA is prevented by Zn2+ and Mn2+ and to, a minor extent, by Cd2+. Zn2+ and Ca2+ ions are involved and are probably mandatory in the ATPase activity of M. lysodeikticus F1 but their roles appear to be different and not exchangeable. Other divalent metal ions inhibit the Ca2+-ATPase activity of the Zn2+ protein by the following decreasing order; Hg2+, Fe2+, Co2+, Cd2+, Mn2+, Mg2+. M. lysodeikticus F1-ATPase is thus identified as a metallo (zinc) protein, which requires additional divalent metal ions for ATP hydrolysis.
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PMID:Identification of a bacterial energy-transducing ATPase as a metallo (Zn2+) protein. Effect of chelating agents and divalent metal ions on ATPase activity. 621 May 27

Recovery of high-energy compounds by ischemic myocardium is believed to be important for its return to normal functioning. While it has been previously shown that oxidative phosphorylation is markedly reduced in mitochondria isolated from ischemic myocardium in the presence of all substrates, alterations in ATPase activity have not been confirmed. This study demonstrates that, although the rate of ATP hydrolysis produced by mitochondria isolated from 2-hr ischemic myocardium does not significantly differ from that produced by non-ischemic mitochondria, the rate produced by 2-hr ischemic, 2 hr reperfused mitochondria is significantly higher. Also, Ca++ content was observed to be higher in reperfused than in non-reperfused ischemic mitochondria. The addition of EDTA, EGTA, or oligomycin to the reperfused ischemic mitochondria resulted in the inhibition of ATPase activity. These results indicate that mitochondrial ATPase in ischemic myocardium is activated by Ca++ ions and that ischemic reperfused myocardium may contain mitochondria with uncontrolled ATPase activity such that high energy phosphate supplies are excessively depleted when the cells are reperfused.
Cell Calcium 1982 Aug
PMID:Divalent cation-activated ATP hydrolysis by mitochondrial ATP'ase--mechanism for energy depletion in ischemic reperfused myocardium. 621 83

Bovine heart submitochondrial particles depleted of F1 by treatment with urea ("F1-depleted particles') were incubated with soluble F1-ATPase. The binding of F1 to the particles and the concomitant conferral of oligomycin sensitivity on the ATPase activity required the presence of cations in the incubation medium. NH4+, K+, Rb+, Na+ and Li+ promoted reconstitution maximally at 40-74 mM, guanidinium+ and Tris+ at 20-30 mM, and Ca2+ and Mg2+ at 3-5 mM. The particles exhibited a negative zeta-potential, as determined by microelectrophoresis, and this was neutralized by mono- and divalent cations in the same concentration range as that needed to promote F1 binding and reconstitution of oligomycin-sensitive ATPase. It is concluded that the cations act by neutralizing negative charges on the membrane surface, mainly negatively charged phospholipids. These results are discussed in relation to earlier findings reported in the literature with F1-depleted thylakoid membranes and with submitochondrial particles depleted of both F1 and the coupling proteins F6 and oligomycin sensitivity-conferring protein.
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PMID:Cation requirement for the reconstitution of oligomycin-sensitive ATPase by means of soluble F1-ATPase and F1-depleted submitochondrial particles. 621 97

The effects of anions on the ATPase activity of submitochondrial particles from mouse liver cells were investigated. Thiocyanite decreased the ATP hydrolysis, acting as a competitive inhibitor with respect to sulfite. All the anions tested changed the ATPase activity noncompetitively towards Mg-ATP. The hydrolysis of CTP, GTP, ITP and UTP was insensitive to sulfite and thiocyanate. In the presence of Mn2+, Ca2+, Co2+, Zn2+ and Ba2+ an anion-dependent hydrolysis of ATP took place. It was assumed that the anions control the rate of the limiting step of the ATPase reaction, since sulfite and thiocyanate change the activation energy of ATP hydrolysis. The data obtained are discussed in terms of a previously proposed mechanism of the anions effect on the activity of mitochondrial ATPase.
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PMID:[Effect of anions on the ATPase activity of submitochondrial particles]. 621 16

Ca-ATPase is thought to function as a calcium extrusion pump that may regulate cytosolic calcium concentration. Because the parathyroid gland is among the few tissues that are directly regulated by extracellular calcium and because cytosolic calcium may be a mediator of the effects of extracellular calcium on parathyroid hormone secretion, we have investigated the presence of this enzyme in homogenates of parathyroid cells. High performance liquid chromatography (HPLC) was used to quantify the formation of ADP from ATP following incubation of ATP with cellular homogenate in a buffer containing ethylenedioxy- (diethylenedinitrilo) tetra acetic acid (EGTA), ouabain, and calcium. Enzyme activity was calcium-dependent, with Ca-ATPase showing two Km (Ca) values, 31 and 853 nM. High affinity Ca-ATPase activity was reduced by the calmodulin inhibitor, trifluoperazine (TFP), with half-maximal inhibition occurring at 7 X 10(-5) M. Monovalent cations stimulated high affinity Ca-ATPase activity (K+ greater than Na+ greater than Rb+ greater than Li+) in the presence of calcium. Magnesium (0.8 mM) also stimulated cleavage of ATP. Sodium increased Ca-dependent ATPase activity by 82% but had no significant effect on Mg-stimulated activity. Furthermore, azide, an inhibitor of mitochondrial ATPase(s), had a significantly greater inhibitory effect on Mg-dependent than on Ca-dependent activity. In summary, a high affinity Ca-ATPase is present in bovine parathyroid cells which has a Km in the range of the cytosolic calcium concentration that is found in other cells. Ca-ATPase(s) may be of importance in regulating the cytosolic calcium concentration and, therefore, hormonal secretion in this cell type.
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PMID:Ca-ATPase activity in bovine parathyroid cells. 622 2

The mechanism of Ca2+ transport by rat liver mitochondria was investigated with respect to the possible involvement of calmodulin in this process. We studied the action of exogenous calmodulin isolated from brain tissue on the Ca2+-transport system, as well as the effect of two types of calmodulin antagonists; the phenothiazine drugs trifluoperazine and chlorpromazine and the more specific substance compound 48/80. Our results show that Ca2+ transport by mitochondria and mitochondrial ATPase activity are insensitive to exogenous calmodulin, although they can be inhibited by the phenothiazines. Since no effect of compound 48/80 was observed, we believe that the phenothiazines act through a mechanism that does not involve calmodulin. This is in accord with our inability to locate significant quantities of calmodulin in mitochondria by radioimmunoassay analysis. Our results further show that trifluoperazine and chlorpromazine also inhibit the electron-carrier system of the respiratory chain, and this effect may mediate their inhibitory action on Ca2+ transport when it is energized by respiration instead of ATP hydrolysis.
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PMID:Effects of calmodulin antagonists on the active Ca2+ uptake by rat liver mitochondria. 622 86

Proteins of similar molecular weights were stripped from submitochondrial particles (A particles) of rat skeletal muscle or bovine heart by treatment with classical chemical uncouplers at 0 degrees C as with Ca2+. Proteins released included two of high molecular weight (about 43 000 and 30 000), an ATPase inhibitor protein (IF1) as well as the Ca2+-binding lipoprotein that has previously been shown to protect the mitochondrial ATPase complex against inhibition by N,N'-dicyclohexylcarbodiimide (DCCD). The latter two proteins were purified to a high degree. The crude fraction obtained by stripping with chemical uncouplers also contained traces of an additional protein (relative mass (Mr) approximately 13 000) which was also found upon aging of the crude fraction stripped by Ca2+. It was not found in aged preparations of either purified IF1 or the lipoprotein, but appeared when IF1 and the lipoprotein were mixed and aged together. Pretreatment of the mixture with 2-mercaptoethanol prior to electrophoresis did not remove the hybrid. More phospholipid was stripped from A particles by chemical uncouplers than by Ca2+ but less protein was stripped. Phosphatidylcholine, phosphatidylethanolamine, lysophosphatidylcholine, and cardiolipin were identified in the phospholipid fractions.
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PMID:Stripping of proteins from submitochondrial particles of rat skeletal muscle or bovine heart by chemical uncouplers. 622 47


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