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)

Exposure to purified mitochondrial F1 ATPase to continuous flux of H2O2 resulted in significant loss (up to 60%) of the ATP hydrolytic activity. The presence of chelating agents including desferrioxamine or previous selective removal of the iron ions not tightly bound in the protein completely prevented the inactivation, whereas re-loading of the enzyme with F3+ restored the sensitivity to H2O2. A marked protective effect was provided as well by mannitol or by Cu,Zn superoxide dismutase. The results indicated the decomposition of H2O2 by redox-active iron-protein adducts as responsible for the enzyme inactivation, probably through site-directed generation of more highly reactive oxygen species. A possible role for iron associated to F1 component in the oxidation, aging and turnover of ATP synthase complex in vivo may be suggested on the basis on these results.
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PMID:The inactivation of mitochondrial F1 ATPase by H2O2 is mediated by iron ions not tightly bound in the protein. 183 27

Nine different proteins were imported into isolated pea chloroplasts in vitro. For seven of these [the large and small subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), beta-subunit of ATP synthase, glutamine synthetase, the light-harvesting chlorophyll a/b binding protein, chloramphenicol acetyltransferase, and pre-beta-lactamase], a fraction was found to migrate as a stable high-molecular-weight complex during nondenaturing gel electrophoresis. This complex contained the mature forms of the imported proteins and the groEL-related chloroplast chaperonin 60 (previously known as Rubisco subunit binding protein). Thus, the stable association of imported proteins with this molecular chaperone is widespread and not necessarily restricted to Rubisco subunits or to chloroplast proteins. With two of the imported proteins (ferredoxin and superoxide dismutase), such complexes were not observed. It seems likely that, in addition to its proposed role in assembly of Rubisco, the chloroplast chaperonin 60 is involved in the assembly or folding of a wide range of proteins in chloroplasts.
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PMID:Several proteins imported into chloroplasts form stable complexes with the GroEL-related chloroplast molecular chaperone. 257 24

Incubation of Trypanosoma cruzi mitochondrial ATPase (Fo-F1) with the xanthine oxidase system (XO), Fenton's reagent (Fe2+ + H2O2) and the ascorbate-Cu system, caused gradual loss of enzyme activity, which increased as a function of incubation time and rate of oxygen radical generation. The essential role of OH. radicals for ATPase inactivation was supported by a) the enzyme protection afforded by superoxide dismutase, catalase and mannitol, when using the XO system; b) the similar effect of mannitol and benzoate with Fenton's reagent; c) the similar effect of catalase, EDTA and histidine with the ascorbate-Cu system; d) the increased rate of ATPase inactivation by 1) the XO system supplemented with chelated iron, and 2) the ascorbate-Cu system supplemented with H2O2. Comparison of oxygen radical generators for their action on membrane-bound (Fo-F1) and soluble F1 revealed that ascorbate-Cu was the most effective one, possibly because of its capability of producing OH. radicals that react preferentially with the enzyme at their formation site.
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PMID:Inactivation of mitochondrial adenosine triphosphatase from Trypanosoma cruzi by oxygen radicals. 301 49

The effect of X irradiation on the respiration of rat thymocytes was studied. An increase in the rate of O2 uptake was observed 1 h after cells were irradiated with doses of 6-10 Gy. The radiation-induced increase in respiration could be blocked by oligomycin, an inhibitor of mitochondrial ATP synthase, suggesting control by increased cytoplasmic ATP turnover. The stimulation of respiration was not associated with changes in the activity of mitochondrial electron transfer enzymes or permeability of the inner membrane. Several inhibitors of processes which used ATP were screened for their effects on the basal respiration rate and on the radiation response. In irradiated thymocytes, an enhancement of inhibition of respiration by ouabain, La3+ and cycloheximide was observed. These results indicate that the radiation-induced stimulation of respiration is due to changes in ion homeostasis and protein synthesis. The effect of X irradiation was shown to be independent of the redox status of nonprotein thiols and was not associated with detectable changes in some products of lipid peroxidation. The radiation-induced decrease in activity of superoxide dismutase suggests free radical involvement in deleterious effects of radiation.
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PMID:Stimulation of respiration in rat thymocytes induced by ionizing radiation. 814 90

This study determined if reported decreases in the delta subunit of ATP synthase and nuclear-encoded cytochrome c oxidase subunits in hearts of copper-deficient rats were secondary to the heart disease pathology or due to lack of the trace element. Male weanling Long-Evans rats were randomly divided into six groups: rats fed a copper-adequate or copper-deficient diet (with free access) with or without 5% dimethyl sulfoxide (DMSO) in the drinking water and rats pair-fed the copper-adequate or copper-deficient diet without DMSO treatment. After 4 wk, rats in the groups fed the copper-deficient diet had lower liver superoxide dismutase and heart cytochrome c oxidase activities compared with groups fed the copper-adequate diet. Administration of DMSO, an antioxidant, and energy restriction (pair-feeding) partially blocked cardiac hypertrophy in rats fed the copper-deficient diet. Greater mitochondrial volume density and mitochondrial:myofibrillar ratio and disrupted myofibrils and basal laminae were observed in the hearts from rats fed the copper-deficient diet and not treated with DMSO compared with hearts from groups fed the copper-adequate diet. The DMSO-treated rats fed the copper-deficient diet had hearts with intact structure but enlarged mitochondria compared with other groups fed the copper-deficient diet. The delta subunit of ATP synthase and the nuclear-encoded cytochrome c oxidase subunits IV and V were depressed in rats fed a copper-deficient diet regardless of antioxidant treatment and pair-feeding. These data suggest that the effects of copper deficiency upon ATP synthase and cytochrome c oxidase proteins are not due to the cardiac pathology.
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PMID:Low levels of ATP synthase and cytochrome c oxidase subunit peptide from hearts of copper-deficient rats are not altered by the administration of dimethyl sulfoxide. 820 36

Previously we indicated that a specific delay in subunit c degradation causes the accumulation of mitochondrial ATP synthase subunit c in lysosomes from the cells of patients with the late infantile form of neuronal ceroid lipofuscinosis (NCL). To explore the mechanism of lysosomal storage of subunit c in patient cells, we investigated the mechanism of the lysosomal accumulation of subunit c both in cultured normal fibroblasts and in in vitro cell-free incubation experiments. Addition of pepstatin to normal fibroblasts causes the marked lysosomal accumulation of subunit c and less accumulation of Mn(2+)-superoxide dismutase (SOD). In contrast, E-64-d stimulates greater lysosomal storage of Mn(2+)-SOD than of subunit c. Incubation of mitochondrial-lysosomal fractions from control and diseased cells at acidic pH leads to a much more rapid degradation of subunit c in control cells than in diseased cells, whereas other mitochondrial proteins, including Mn(2+)-SOD, beta subunit of ATP synthase, and subunit i.v. of cytochrome oxidase, are degraded at similar rates in both control and patient cells. The proteolysis of subunit c in normal cell extracts is inhibited markedly by pepstatin and weakly by E-64-c, as in the cultured cell experiments. However, there are no differences in the lysosomal protease levels, including the levels of the pepstatin-sensitive aspartic protease cathepsin D between control and patient cells. The stable subunit c in mitochondrial-lysosomal fractions from patient cells is degraded on incubation with mitochondrial-lysosomal fractions from control cells. Exchange experiments using radiolabeled substrates and nonlabeled proteolytic sources from control and patient cells showed that proteolytic dysfunction, rather than structural alterations such as the posttranslational modification of subunit c, is responsible for the specific delay in the degradation of subunit c in the late infantile form of NCL.
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PMID:Specific delay in the degradation of mitochondrial ATP synthase subunit c in late infantile neuronal ceroid lipofuscinosis is derived from cellular proteolytic dysfunction rather than structural alteration of subunit c. 885 53

We have previously demonstrated that epidermal growth factor (EGF), colony stimulating factor-1 (CSF-I), and granulocyte-monocyte colony stimulating factor (GMCSF) stimulate, while transforming growth factor beta 1 (TGF beta 1) inhibits, cytotrophoblast differentiation. To identify genes mediating EGF induced differentiation, we constructed a subtracted cDNA library between undifferentiated cytotrophoblast and differentiating cytotrophoblast. We identified six novel genes and four known syncytial products alpha-human chorionic gonadotrophin (alpha hCG) pregnancy-specific beta 1-glycoprotein, 3 beta-hydroxysteroid dehydrogenase, and plasminogen activator inhibitor type 1 whose mRNAs increased during differentiation. Ten other genes were identified whose mRNAs increased during differentiation. Five of these (keratin 19, calcreticulin, heat shock protein 27, serum and glucocorticoid-regulated kinase and adrenomedullin) were not previously reported to be expressed in placenta. Five other genes known to be expressed in placenta were identified. keratin 8, fibronectin, mitochondrial ATP synthase, 1119, and cytosolic copper-zinc superoxide dismutase (SOD-1). Several of these genes may have regulatory functions in trophoblast differentiation.
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PMID:Identification by subtractive hybridization of a spectrum of novel and unexpected genes associated with in vitro differentiation of human cytotrophoblast cells. 889 72

The storage of subunit c of mitochondrial ATP synthase, other hydrophobic peptides, and autofluorescent pigment in both late infantile (CLN2) and juvenile (CLN3) neuronal ceroid lipofuscinosis, but not in infantile (CLN1), has raised the question of abnormal mitochondrial function. We now report a partial deficiency in three types of fatty acid oxidation in intact skin fibroblasts from CLN2 and CLN3 patients, but not CLN1. We observed a statistically significant 33% reduction in palmitate (beta-oxidation; mainly mitochondrial) and lignocerate (beta-oxidation; mainly peroxisomal), and a 50% reduction in phytanic acid (alpha-oxidation; mainly peroxisomal) in the absence of exogenous carnitine. In contrast, when we measured fatty acid beta-oxidation (lignoceric acid and palmitic acid), in the same human skin fibroblasts, following lysis in the presence of carnitine, we found no difference in enzyme activity among normal, CLN1, CLN2, and CLN3. However, we did observe a 40% reduction in peroxisomal particulate (bound) catalase activity in CLN1 and CLN2 fibroblasts, which typically results from organellar lipid accumulation or a membrane abnormality. However, total catalase levels were normal, and Western blot analysis of this and three other major oxidant protective enzymes (Mn-dependent superoxide dismutase [MnSOD], CuZn-dependent superoxide dismutase [CuZnSOD], and glutathione peroxidase) were normal in CLN1, CLN2, and CLN3, as well as in liver from an animal (English Setter dog) model for CLN, which shows similar pathology and subunit c storage. Our data showing differences between CLN1 and forms CLN2 and CLN3 suggest some type of mitochondrial membrane abnormality as the source of the pathology in CLN2 and CLN3.
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PMID:Mitochondrial abnormalities in CLN2 and CLN3 forms of Batten disease. 897 98

Nitric oxide has been recognized in recent years as an important mediator of neuronal toxicity, which in many cases involves alterations of the cytoplasmic Ca2+ concentration ([Ca2+]i). In [Ca2+]i fluorimetric experiments on cultured hippocampal neurons, the nitric oxide-releasing agent S-nitrosocysteine produced a delayed rise in [Ca2+]i over a 20-min exposure, which was accompanied by a progressive slowing of the kinetics of recovery from depolarization-induced [Ca2+]i transients. These effects were blocked by oxyhemoglobin and by superoxide dismutase, confirming nitric oxide as the responsible agent, and suggesting that they involved peroxynitrite formation. Similar alterations of [Ca2+]i homeostasis were produced by the mitochondrial ATP synthase inhibitor oligomycin, and when an ATP-regenerating system was supplied via the patch pipette in combined whole-cell patch-clamp-[Ca2+]i fluorimetry experiments, S-nitrosocysteine had no effect on the resting [Ca2+]i or on the recovery kinetics of [Ca2+]i transients induced by direct depolarization. We conclude that prolonged exposure to nitric oxide disrupts [Ca2+]i homeostasis in hippocampal neurons by impairing Ca2+ removal from the cytoplasm, possibly as a result of ATP depletion. The resulting persistent alterations in [Ca2+]i may contribute to the delayed neurotoxicity of nitric oxide.
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PMID:Nitric oxide disrupts Ca2+ homeostasis in hippocampal neurons. 897 14

The cuproenzymes lysyl oxidase, cytochrome-c oxidase, and superoxide dismutase are key factors in understanding the cardiac hypertrophy and cardiomyopathy associated with dietary copper restriction. The role of copper in cardiac lipid and energy metabolism as a consequence of changes in some of these enzyme activities in comparison with what is known about normal cardiac substrate utilization is discussed here. While the decrease in the nuclear encoded subunits of cytochrome-c oxidase in hearts from copper-deficient rats is known, new evidence suggests that other factors, such as ATP synthase metabolism may be exerting an influence upon this observation. While this review focuses on newer knowledge about energy and fatty acid metabolism in copper deficiency, the extracellular matrix is considered as well. This complex interplay of extracellular and cellular events in copper restriction is outlined as a model for further studies of this unique model of concentric hypertrophy.
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PMID:Newer findings on a unified perspective of copper restriction and cardiomyopathy. 927 Jul 15


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