Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Proteolytic activities in bovine adrenocortical mitochondria were investigated using [14C-methyl]casein as a substrate. Washed mitochondria showed a low proteolytic activity at pH 7.5 or 8.2. ATP (5 mM) plus MgCl2 (7.5 mM) stimulated the proteolysis 9 times at pH 8.2. It was further demonstrated unequivocally by various approaches that the ATP-dependent proteolytic activity localizes in mitochondrial matrix. The activity of the solubilized protease was sensitive to N-ethylmaleimide, mersalyl acid, phenylmethylsulfonyl fluoride, o-vanadate, m-vanadate, vanadyl sulfate, and quercetin but not by oligomycin and ouabain. The ATP-dependent proteolytic activity was eluted at the position of 650,000 daltons on an Ultrogel AcA 22 column as a single symmetrical peak. The gel-filtered enzyme showed high specificity to ATP. GTP and UTP partially substituted ATP. ADP, AMP, tripolyphosphate, alpha, beta-methylene ATP, and beta, gamma-methylene ATP had little or no stimulating activity. ATP did not stimulate the activity in the absence of MgCl2. We measured ATP-dependent proteolytic activities in mitochondrial fractions from several tissues in rat and bovine. Adrenal cortex was one of the tissues of highest activity. In addition, we investigated the effect of adrenal atrophy on the ATP-dependent protease activity in rat adrenal. The ATP-dependent protease activity/adrenal decreased by dexamethasone treatment. The extent of the decrease was similar to that of cytochrome oxidase and succinate dehydrogenase, but smaller than that of cytochrome P-450.
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PMID:ATP-dependent protease in bovine adrenal cortex. Tissue specificity, subcellular localization, and partial characterization. 298 96

The reversible period of hypoxia and ischemia is a consequence of the function of numerous regulatory mechanisms which convert cells to a quiescent state. Thus, early changes in metabolism reflect regulatory events rather than pathological events. O2-dependent enzymes (oxidases and oxygenases) are the primary sensors for physiological responses to hypoxia, and failure of their functions are ultimately responsible for hypoxic and ischemic cell injury. At least 30 of these enzymes are known to occur in kidney, but only cytochrome oxidase has been extensively studied with regard to the above processes. Heterogeneity of subcellular oxygenation occurs as a result of the existence of clusters of mitochondria in the basolateral regions of proximal and distal tubule cells. This creates regions with very high O2 consumption rates, and results in diffusion limitations in O2 supply. Finally, dramatic progress has been made in protecting against ischemic injury through use of nonpermeant solutes to reduce cell swelling, addition of ATP-MgCl2 to stimulate recovery of cellular adenylates upon reoxygenation, use of a Ca2+ uptake blocker to prevent cellular loading of Ca2+, and addition of compounds to inhibit superoxide and H2O2 production or scavenge reactive O2 species. While the mechanistic details and complete description of metabolic effects are not yet available, the ability to alter cellular metabolism and delay or prevent irreversible injury marks a very important advance in renal physiology.
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PMID:Renal metabolism during normoxia, hypoxia, and ischemic injury. 351 18

Oxidation of added NADH by rat liver mitochondria has been studied. It is found that exogenous NADH, when oxidized by rat liver mitochondria in sucrose hypotonic medium supplemented with Mg2+ and EGTA, generates a membrane potential (delta psi) even in the absence of added cytochrome c. ADP and phosphate decrease delta psi, the effect being reversed by oligomycin. Rotenone and myxothiazol do not inhibit delta psi generated by oxidation of exogenous NADH. Added cytochrome c increases the rate of the exogenous NADH oxidation and coupled delta psi formation. In sucrose isotonic medium, or in hypotonic medium without Mg2+, exogenous NADH fails to stimulate respiration and to form a membrane potential. In the presence of Mg2+, exogenous NADH appears to be effective in delta psi generation in isotonic sucrose medium if mitochondria were treated with digitonin. In isotonic KCl without Mg2+, oxidation of exogenous NADH is coupled to the delta psi formation and MgCl2 addition before mitochondria prevents this effect. In hypotonic (but not in isotonic) sucrose medium, Mg2+ makes a portion of the cytochrome c pool reducible by exogenous NADH or ascorbate. It is assumed that (i) hypotonic treatment or digitonin causes disruption of the outer mitochondrial membrane, and, as a consequence, desorption of the membrane-bound cytochrome c in a Mg2+-dependent fashion; (ii) incubation in isotonic KCI without Mg2+ results in swelling of mitochondrial matrix, disruption of the outer membrane and cytochrome c desorption whereas Mg2+ lowers the K+ permeability of the inner membrane and, hence, prevents swelling; (iii) desorbed cytochrome c is reduced by added NADH via NADH-cytochrome b5 reductase and cytochrome b5 or by ascorbate and is oxidized by cytochrome oxidase. The role of desorbed cytochrome c in oxidation of superoxide and cytoplasmic NADH as well as possible relations of these events to apoptosis are discussed.
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PMID:Membrane potential generation coupled to oxidation of external NADH in liver mitochondria. 976 23