Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 effect of inhibition of the mitochondrial ATPase with oligomycin on the rate of ATP depletion and anaerobic glycolysis was studied in the totally ischemic dog heart. An oxygenated, buffered crystalloidal solution containing 10 microM oligomycin and 12 mM glucose was delivered at 100 mmHg pressure to the circumflex bed of the excised cooled heart. Buffered solution without oligomycin was delivered simultaneously to the anterior descending bed of the same heart. Little metabolic evidence of ischemia developed until the heart was made totally ischemic by incubating it in a sealed plastic bag at 37 degrees C. Successful inhibition of the mitochondrial ATPase was confirmed by the absence of both mitochondrial ATPase activity and the loss of respiratory control in mitochondria isolated from treated tissue. ATP, glycolytic intermediates and catabolites of the adenine nucleotide pool were measured in the control and treated beds at various intervals during 120 min of ischemia. Inhibition of the ATPase resulted in slowing of the rates of ATP depletion and anaerobic glycolysis (estimated by lactate accumulation). Also, degradation of the adenine nucleotide pool occurred more slowly in the inhibited group. These data establish that about 35% of the ATP utilization observed during the first 90 min of total ischemia in the canine heart is due to mitochondrial ATPase activity.
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PMID:Effect of inhibition of the mitochondrial ATPase on net myocardial ATP in total ischemia. 183 1

Fluorometry and high-performance liquid chromatography were used to measure the content of free CoA and the esters of acetate, malonate, succinate, and long-chain fatty acids in isolated perifused rat pancreatic islets exposed to 25 mM glucose or a mixture of fuels (25 mM glucose plus 10 mM glutamine, 10 mM lactate, and 1 mM pyruvate) to assess the role of intermediates of lipid metabolism as candidate metabolic coupling factors in the mechanism of fuel-induced insulin secretion. Insulin secretion was stimulated in a biphasic manner with the fuel mixture, showing twice the potency compared with high glucose alone. Islets perifused for 3 min with high glucose alone or the fuel mixture compared with 2.5 mM glucose showed a significant increase in malonyl-CoA and succinyl-CoA and a decrease in acetyl-CoA. Free CoA and long-chain acyl-CoA levels were unaltered. Perifused islets stimulated with 25 mM glucose for 30 min showed a significant increase in succinyl-CoA and long-chain acyl-CoA and decrease in acetyl-CoA, whereas malonyl-CoA was not affected. However, when islets were stimulated by the fuel mixture for 30 min, malonyl-CoA was maintained at a high level, and the change in succinyl-CoA and long-chain acyl-CoA was similar to that observed in islets stimulated with 25 mM glucose alone. The acetyl-CoA concentration in the islets stimulated with the fuel mixture decreased slightly. These results confirm the viability of the hypothesis that malonyl-CoA and long-chain acyl-CoA serve as metabolic coupling factors in signal transduction when islets are stimulated by high glucose or glucose combined with other fuels.
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PMID:Content of CoA-esters in perifused rat islets stimulated by glucose and other fuels. 199 74

The gene coding for the yeast Saccharomyces cerevisiae mitochondrial oligomycin sensitivity-conferring protein (OSCP) has been sequenced, and the gene products have been characterized. The OSCP is subunit 5 of the mitochondrial ATP synthase, a multimeric protein complex. As such, the gene coding for the yeast OSCP is referred to here as the ATP5 gene. From the predicted primary sequence, the calculated molecular weight of the immature yeast OSCP is 22,813 and the amino acid sequence is 35% identical and 65% homologous to bovine OSCP. A null mutant has been constructed. This mutant strain is unable to grow on glycerol medium, has no detectable oligomycin-sensitive ATPase activity, and has no detectable immune reactive proteins with the corresponding molecular weight of the OSCP (using antibodies reactive to the yeast OSCP). The transcription products of the yeast gene have been characterized. There is a single major transcript from the ATP5 gene of 1.05 kilobases. The level of the transcription product is increased from 3-5-fold after growth in galactose medium as compared to cells grown in glucose medium. The transcriptional initiation sites were determined to occur at +68(G) and +69(T) at comparable frequency and were not dependent on the growth medium. These results suggest that transcription of the ATP5 gene is catabolite-repressed.
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PMID:The gene coding for the yeast oligomycin sensitivity-conferring protein. 214 69

The membrane topology of subunit alpha from the Escherichia coli F1F0-ATP synthase was studied using a gene fusion technique. Fusion proteins linking different amino-terminal fragments of the alpha subunit with an enzymatically active fragment of alkaline phosphatase were constructed by both random transposition of TnphoA and site-directed mutagenesis. Those proteins with high levels of alkaline phosphatase activity are predicted to define periplasmic domains of alpha, and this was confirmed by testing for cell growth in minimal medium supplemented with polyphosphate (P greater than 75) as the sole source of phosphate. The enzymatic activity of some fusion proteins was shown to be sensitive to glucose present in the growth medium. Results from subcellular fractionation experiments suggest that these fusion proteins may be inactive even though they have a periplasmic alkaline phosphatase. The enzymatic activity appears dependent upon proteolytic release of the alkaline phosphatase moiety from its alpha subunit membrane anchor and suggests the target of glucose repression may be a protease present in the periplasm. For the topological analysis of the alpha subunit, a total of 28 unique fusion proteins were studied and the results were consistent with a model of alpha containing eight transmembrane segments, including periplasmic amino and carboxyl termini. Surprisingly, separate periplasmic domains were identified near amino acids 200, 233, and 270. These results suggest the flanking membrane spans are only 10-15 amino acids in length and not able to span a standard 30 A bilayer in an alpha-helical conformation. These short spans may have interesting mechanistic implications for the function of F0, because they contain several amino acids which appear critical for proton translocation. Finally, a fusion of alkaline phosphatase at amino acid 271, the carboxyl-terminal residue, but not at amino acid 260, was able to complement the strain RH305 (uncB-) for growth on succinate and suggests the last 11 amino acids of the alpha subunit are critical to the function of F1F0-ATP synthase.
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PMID:A topological analysis of subunit alpha from Escherichia coli F1F0-ATP synthase predicts eight transmembrane segments. 216 53

Several mutants of yeast lacking the porin gene have been found stable and viable on glucose or glycerol media. Ethanol-supported respiration of porin-free mutant and wild cells appeared equally coupled in vivo being similarly depressed by inhibitors of ADP/ATP translocase or of ATP synthase and stimulated by the uncoupler FCCP. The absence of porin in isolated mutant mitochondria hardly impaired the electron flux but increased the requirement for Mg2+ (or Ca2+) and for ADP and carboxyatractylate concentrations necessary to drive effectively state 3 - state 4 and state 4 - state 3 transitions, respectively. The existence of another porin species, possibly controlled by bivalent cations, is postulated.
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PMID:The respiration of cells and mitochondria of porin deficient yeast mutants is coupled. 216 77

N-(4-Methylphenylsulfonyl)-N'-(4-chlorophenyl)urea (MPCU) is a new agent that exhibits high therapeutic activity against human and rodent tumor models. Initial studies indicated that in vitro [3H]MPCU was concentrated 4- to 6-fold in GC3/c1 human colon adenocarcinoma cells in an azide-sensitive manner. In this study the dependence of uptake and concentrative accumulation of MPCU upon temperature, plasma membrane potential, and the electrochemical potential of mitochondria has been examined. Accumulation and efflux of MPCU were temperature dependent. At 3.6 microM MPCU, initial rates of uptake (15 s) were 1.4, 38.0, and 84.2 pmol/min/10(6) cells at 2 degrees C, 23 degrees C, and 37 degrees C, respectively. The rate of uptake and concentrative accumulation within GC3/c1 cells was not altered in high K+ buffer or by 1 mM ouabain, indicating that plasma membrane potential was not significant in these processes. Concentrative accumulation, but not initial uptake, was inhibited by carbonyl cyanide p-trifluoromethoxyphenylhydrazone, 2,4-dinitrophenol, and sodium azide. Glucose partially antagonized the inhibition of these agents which uncouple oxidative phosphorylation. Oligomycin, an inhibitor of mitochondrial ATP synthase, did not inhibit uptake or concentrative accumulation of MPCU. However, oligomycin in the presence of 2-deoxyglucose significantly inhibited concentrative accumulation of MPCU. These results suggested that concentrative accumulation of MPCU was dependent upon the mitochondrial transmembrane gradient rather than ATP, although direct implication of ATP could not be excluded. To examine which component of this gradient was predominant in causing MPCU sequestration, the ionophores valinomycin and nigericin were used. Valinomycin, which collapses the charge gradient across the mitochondrial matrix membrane, caused only slight inhibition of MPCU accumulation, and the effect was similar at 2 or 10 mumol. In contrast, nigericin (which collapses the pH gradient and increases mitochondrial membrane potential) inhibited by approximately 90% concentrative accumulation of MPCU. These data suggested that MPCU was being concentrated in mitochondria and that this was dependent upon the pH gradient across mitochondrial membrane. In cells exposed to MPCU or the analogue N-(5-indanylsulfonyl)-N'-(4-chlorophenyl)urea, enlargement of mitochondria was observed within 24 h and appeared to be the initial morphological change associated with drug treatment. These results implicate mitochondria as a site of sequestration of diarylsulfonylureas and as a potential site of action.
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PMID:Evidence for mitochondrial localization of N-(4-methylphenylsulfonyl)-N'-(4-chlorophenyl)urea in human colon adenocarcinoma cells. 229 7

The effect of rhein, 4,5-dihydroxyanthraquinone-2-carboxylic acid, on oxygen consumption and the rate of aerobic and anaerobic lactate production by Ehrlich ascites tumor cells has been investigated. The rate of oxygen uptake decreases with the increase of rhein concentration. Rhein also inhibits aerobic and anaerobic glycolysis. The rate of aerobic lactate production decreases with the drug concentration and the maximal effect was observed at 0.100 mM. Anaerobic lactate production is also inhibited and the maximum effect is reached at 0.220 mM. The possibility that the lactate production decrease was secondary to an effect on mitochondrial ATPase was excluded on the basis of the data with DNP and oligomycin. Rhein reduces the intracellular level of lactate, pyruvate and glucose-6-phosphate. Glucose utilization and 2-deoxy-D-glucose uptake are decreased to the same extent as the inhibition of aerobic lactate production, whereas glucose phosphorylation is unaffected. It is, therefore, concluded that the inhibition of glycolysis of Ehrlich ascites tumor cells by rhein is caused by an impairment of glucose uptake.
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PMID:Effect of rhein on the glucose metabolism of Ehrlich ascites tumor cells. 237 63

It is generally believed that the initiation of insulin secretion by nutrient stimuli necessitates the generation of metabolic coupling factors, leading to membrane depolarization and the gating of voltage-sensitive Ca2+ channels. To establish this sequence of events, the kinetics of endogenous fluorescence of reduced pyridine nucleotides [NAD(P)H], reflecting nutrient metabolism, were compared to those of cytosolic calcium ([Ca2+]i) rises in single cultured rat islet beta-cells. In preliminary experiments, the loss of quinacrine fluorescence from prelabelled cells was used as an indicator of secretion. This dye is concentrated in the acidic insulin-containing secretory granules. Both glucose and 2-ketoisocaproate (KIC) raised [Ca2+]i in a dose-dependent manner. There was marked cellular heterogeneity in the [Ca2+]i response patterns. The two nutrient stimuli also increased NAD(P)H fluorescence, again showing cell-to-cell variations. In combined experiments, where the two parameters were measured in the same cell, the elevation of the NAD(P)H fluorescence preceded the rise in [Ca2+]i, confirming the statistical evaluation performed on separate cells. The application of two consecutive glucose challenges revealed coordinated changes in [Ca2+]i and NAD(P)H fluorescence. Finally, quinacrine secretion was stimulated by two nutrients with onset times similar to those recorded for [Ca2+]i elevations. These results clearly demonstrate that increased metabolism occurs during the lag period preceding Ca2+ influx via voltage-sensitive Ca2+ channels, a prerequisite for the triggering of insulin secretion by nutrient stimuli.
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PMID:Single islet beta-cell stimulation by nutrients: relationship between pyridine nucleotides, cytosolic Ca2+ and secretion. 240 30

The steady state levels of mitochondrial rRNAs, 5 tRNAs, the 9 S RNA, and the RNA products from the genes coding for subunits 6 and 9 of the ATP synthase, cytochrome b, and subunit 1 of cytochrome oxidase have been determined after growth of yeast under conditions of respiratory repression or derepression. The analysis indicates that the mitochondrial rRNAs are present in 2000 or 9000 copies/cell in repressed or derepressed yeast, respectively. The levels of the other RNAs also differed to a similar extent, with the exception of the level of the tRNAfMet which differs by only 1.7-fold. The levels of the individual protein coding RNAs varied from 480 copies/cell for the Oli-1 RNA to 100 copies/cell for the Oli-2 RNA under derepressive conditions and from 130 copies/cell to 33 copies/cell for the same RNAs in glucose repressive conditions. The levels of the tRNAs varied even more markedly, ranging from 4200 copies/cell for the tRNAPhe to 240 copies/cell for the tRNACys after growth in derepressive conditions and from 800 copies/cell for the tRNAfMet to 30 copies/cell for the tRNACys of glucose repressed yeast. These results indicate that glucose repression uniformly decreases the levels of the individual mitochondrial RNAs studied. This decrease is related to a lower synthesis of mitochondrial RNA in the glucose repressed cells as compared to derepressed cells.
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PMID:Steady state analysis of mitochondrial RNA after growth of yeast Saccharomyces cerevisiae under catabolite repression and derepression. 242 12

The conserved Pro43 residue of the uncE protein (subunit c) of the Escherichia coli F1F0-ATPase was changed to Ser or Ala by oligonucleotide-directed mutagenesis, and the mutations were incorporated into the chromosome. The resultant mutant strains were capable of oxidative phosphorylation as indicated by their ability to grow on succinate and had growth yields on glucose that were 80-90% of wild type. Membrane vesicles from the mutants were slightly less efficient than wild type vesicles in ATP-driven proton pumping as indicated by ATP-dependent quenching of quinacrine fluorescence. The decreased quenching response was not due to increased H+ leakiness of the mutant membranes or to loss of F1-ATPase activity from the membrane. These results indicate that the mutant F1F0-ATPases are defective in coupling ATP hydrolysis to H+ translocation. The membrane ATPase activity of the mutants was inhibited less by dicyclohexylcarbodiimide than that of wild type. The decrease in sensitivity to inhibition by dicyclohexylcarbodiimide was caused primarily by dissociation of the F1-ATPase from the mutant F0 in the ATPase assay mixture. These results support the idea that Pro43, and neighboring conserved polar residues play an important role in the binding and functional coupling of F1 to F0. Although a Pro residue is found at position 43 in all species of subunit c studied, surprisingly, it is not absolutely essential to function.
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PMID:Mutations in the conserved proline 43 residue of the uncE protein (subunit c) of Escherichia coli F1F0-ATPase alter the coupling of F1 to F0. 252 Dec 16


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