EC:1.8.1.4 - FACTA Search

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Query: EC:1.8.1.4 (diaphorase)
2,754 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experiments were conducted on 45 male rats; histophysiological characteristics of ependymocytes of the subcommissural organ (SCO) and of adrencorticocytes of the glomerular zone of the adrenal cortex (GZA) was investigated under conditions of dehydration and water loading. A marked activation of H-6-PDH, HDH, NAD-dependent alphaHPDH, and an enhancement of the H-6-PDH, NAD-diaphorase and 3betaol activity in the GZA adrencorticocytes resulted from dehydration. Water loading depressed the synthetic processes, particularly in the SCO ependymocytes. The data obtained suggest a functional interrelation between the SCO and GZA.
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PMID:[Histophysiological characteristics of the structures of the subcommissural organ of the brain and the glomerular zone of the adrenal gland in changes of the water-electrolyte balance]. 88 35

The pyruvate dehydrogenase complex (PDC) from muscle of the adult parasitic nematode Ascaris suum plays a unique role in its anaerobic mitochondrial metabolism. Resolution of the intact complex in high salt dissociates the pyruvate dehydrogenase subunit but leaves the dihydrolipoyl dehydrogenase subunit (E3) and two other proteins with apparent M(r)s of 45 and 43 kDa bound to the dihydrolipoyl transacetylase (E2) core. These proteins are not observable on Coomassie brilliant blue-stained gels of other eukaryotic PDCs, but the 45-kDa protein is similar in apparent M(r), pI, and sensitivity to trypsin to the Kb subunit of the bovine kidney PDH alpha kinase. Acetylation of the ascarid PDC with [2-14C]pyruvate under conditions designed to maximize the incorporation of label into protein yielded only a single radiolabeled subunit, E2. These results confirm earlier reports that the ascarid PDC lacks protein X, an integral component recently identified in other eukaryotic PDCs. About 1.6 to 1.8 mol of 14C was incorporated/mole of E2, suggesting that the ascarid E2 contained two lipoly-bearing domains. Domain mapping of the 14C-acetylated ascarid E2 by limited tryptic digestion identified two lipoyl-bearing fragments with apparent M(r)s of 50 and 34 kDa and two core fragments with apparent M(r)s of 46 and 30 kDa. The ascarid E2 domain structure appears to be similar to that of other E2s. However, it appears that the subunit-binding domain (E2B) of the ascarid E2 may be significantly larger or be flanked by larger than normal interdomain regions. An enlarged E2B domain may be necessary to accommodate the additional binding of E3 to the E2 subunit in the ascarid complex, in the absence of protein X.
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PMID:The pyruvate dehydrogenase complex from the parasitic nematode Ascaris suum: novel subunit composition and domain structure of the dihydrolipoyl transacetylase component. 137 97

The aceEF-lpd operon of Escherichia coli encodes the pyruvate dehydrogenase (E1p), dihydrolipoamide acetyltransferase (E2p) and dihydrolipoamide dehydrogenase (E3) subunits of the pyruvate dehydrogenase multienzyme complex (PDH complex). An isopropyl beta-D-thiogalactopyranoside-inducible expression system was developed for amplifying fully lipoylated wild-type and mutant PDH complexes to over 30% of soluble protein. The extent of lipoylation was related to the degree of aeration during amplification. The specific activities of the isolated PDH complexes and the E1p component were 50-75% of the values normally observed for the unamplified complex. This could be due to altered stoichiometries of the overproduced complexes (higher E3 and lower E1p contents) or inactivation of E1p. The chaperonin, GroEL, was identified as a contaminant which copurifies with the complex. Site-directed substitutions of an invariant glycine residue (G231A, G231S and G231M) in the putative thiamine pyrophosphate-binding fold of the E1p component had no effect on the production of high-molecular-mass PDH complexes but their E1p and PDH complex activities were very low or undetectable, indicating that G231 is essential for the structural or catalytic integrity of E1p. A minor correction to the nucleotide sequence, which leads to the insertion of an isoleucine residue immediately after residue 273, was made. Substitution of the conserved histidine and arginine residues (H602 and R603) in the putative active-site motif of the E2p subunit confirmed that H602 of the E. coli E2p is essential, whereas R603 could be replaced without inactivating E2p. Deletions affecting putative secondary structural elements at the boundary of the E2p catalytic domain inhibited catalytic activity without affecting the assembly of the E2p core or its ability to bind E1p, indicating that the latter functions are determined elsewhere in the domain. The results further consolidate the view that chloramphenicol acetyltransferase serves as a useful structural and functional model for the catalytic domain of the lipoate acyltransferases.
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PMID:Overproduction of the pyruvate dehydrogenase multienzyme complex of Escherichia coli and site-directed substitutions in the E1p and E2p subunits. 144 21

The aceEF-lpd operon of Escherichia coli encodes the pyruvate dehydrogenase (E1p), dihydrolipoamide acetyltransferase (E2p) and dihydrolipoamide dehydrogenase (E3) components of the pyruvate dehydrogenase multienzyme complex (PDH complex). A thermoinducible expression system was developed to amplify a variety of genetically restructured PDH complexes, including those containing three, two, one and no lipoyl domains per E2p chain. Although large quantities of the corresponding complexes were produced, they had only 20-50% of the predicted specific activities. The activities of the E1p components were diminished to the same extent, and this could account for the shortfall in overall complex activity. Thermoinduction was used to express a mutant PDH complex in which the putative active-site histidine residue of the E2p component (His-602) was replaced by cysteine in the H602C E2p component. This substitution abolished dihydrolipoamide acetyltransferase activity of the complex without affecting other E2p functions. The results support the view that His-602 is an active-site residue. The inactivation could mean that the histidine residue performs an essential role in the acetyltransferase reaction mechanism, or that the reaction is blocked by an irreversible modification of the cysteine substituent. Complementation was observed between the H602C PDH complex and a complex that is totally deficient in lipoyl domains, both in vitro, by the restoration of overall complex activity in mixed extracts, and in vivo, from the nutritional independence of strains that co-express the two complexes from different plasmids.
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PMID:Overexpression of restructured pyruvate dehydrogenase complexes and site-directed mutagenesis of a potential active-site histidine residue. 220 Dec 86

The effects of dichloroacetate (DCA), an inhibitor of pyruvate dehydrogenase kinase, on the phosphorylation of the alpha-subunit of pyruvate dehydrogenase and on the activity of pyruvate dehydrogenase (pyruvate:lipoamide oxidoreductase (decarboxylating and acceptor-acetylating), EC 1.2.4.1, PDH) were investigated in rat hippocampal slices. Incubating hippocampal slices with increasing concentrations of DCA resulted in an increase in the active portion of PDH, without changes in the total PDH activity, as well as an increase in the in vitro phosphorylation of alpha-PDH. The effect of DCA on PDH activity was very rapid, being almost maximal after 5 min. These results indicate that DCA in the hippocampal slice preparation inhibits PDH kinase and consequently stimulates PDH activity by decreasing its endogenous state of phosphorylation. Moreover the time-course of the effect of DCA suggests that the turnover rate of the phosphate group carried by alpha-PDH is very rapid and can be manipulated by altering PDH kinase activity.
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PMID:The regulation of pyruvate dehydrogenase activity in rat hippocampal slices: effect of dichloroacetate. 628 99

Pyruvate and palmitate oxidations by cultured fibroblasts suspensions were measured in optimized conditions and proved to be within normal range in the cells from Friedreich's patients. However, when pyruvate oxidation was measured by direct assay of the pyruvate dehydrogenase complex, this enzyme activity proved to be significantly lower in Friedreich's than in controls' cells. These abnormalities were not observed when the cells were sonicated. Moreover, lipoamide dehydrogenase activity. Km and Vmax were within the normal range in Friedreich's cells. These data suggest that the low activities of the PDH complex are not a primary defect in Friedreich's ataxia, but are more likely related to membrane abnormalities in Friedreich's cells.
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PMID:Friedreich's ataxia in northern Italy. II. Biochemical studies in cultured cells. 689 62

Pyruvate and palmitate oxidations by cultured fibroblast suspensions were measured in optimized conditions and proved to be within normal range in the cells from Friedreich's patients. But when pyruvate oxidation was measured by direct assay of the pyruvate dehydrogenase complex, this enzyme activity proved to be significantly lower in Friedreich's than in controls' cells. These abnormalities were not observed when the cells were sonicated. Moreover, lipoamide dehydrogenase activity Km and Vmax were within the normal range in Friedreich's cells. These data suggest that the low activities of the PDH complex are not a primary defect in Friedreich's ataxia but are more likely to be related to membrane abnormalities in Friedreich's cells.
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PMID:Friedreich's ataxia II. Biochemical studies in cultured cells. 689 44

Changes in the activity of pyruvate dehydrogenase [pyruvate:lipoamide oxidoreductase (decarboxylating and acceptor-acetylating), EC 1.2.4.1, PDH], elicited by inhibition of the phosphorylation of its 40,000 Mr alpha-subunit, were compared with changes in pyruvate-supported calcium accumulation by rat brain mitochondria. Dichloroacetate (DCA) produces concentration-dependent inhibition of the phosphorylation of intramitochondrial PDH alpha-subunit, which is accompanied by stimulation of PDH activity and calcium accumulation. DCA did not affect succinate- or ATP-supported mitochondrial calcium accumulation. The concentration of DCA giving half-maximal inhibition of the phosphorylation was almost identical to that giving half-maximal stimulation of PDH activity and calcium accumulation. PDH activity and pyruvate-supported calcium accumulation showed similar dependence on pyruvate concentration with respective apparent affinities for pyruvate of 40 microM and 30 microM, and both activities exhibited positive cooperativity. DCA modified only the maximal activity of PDH or the maximal calcium DCA modified only the maximal activity of PDH or the maximal calcium accumulation without changing either the apparent affinities for pyruvate or calcium or the Hill coefficients. These data provide evidence that calcium accumulation by mitochondria is tightly linked to PDH activity and that changes in the phosphorylation of the PDH alpha-subunit can be reflected in changes in the calcium-buffering ability of mitochondria. This suggests a possible mechanism by which a variety of manipulations, such as repetitive synaptic stimulation, can alter the regulation of internal calcium levels.
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PMID:Phosphorylation-mediated changes in pyruvate dehydrogenase activity influence pyruvate-supported calcium accumulation by brain mitochondria. 724 Nov 45

Friedreich ataxia (FA) is a cardioneurodegenerative disease caused by deficient frataxin expression. This mitochondrial protein has been related to iron homeostasis, energy metabolism, and oxidative stress. Previously, we set up a cardiac cellular model of FA based on neonatal rat cardiac myocytes (NRVM) and lentivirus-mediated frataxin RNA interference. These frataxin-deficient NRVMs presented lipid droplet accumulation, mitochondrial swelling and signs of oxidative stress. Therefore, we decided to explore the presence of protein thiol modifications in this model. With this purpose, reduced glutathione (GSH) levels were measured and the presence of glutathionylated proteins was analyzed. We observed decreased GSH content and increased presence of glutahionylated actin in frataxin-deficient NRVMs. Moreover, the presence of oxidized cysteine residues was investigated using the thiol-reactive fluorescent probe iodoacetamide-Bodipy and 2D-gel electrophoresis. With this approach, we identified two proteins with altered redox status in frataxin-deficient NRVMs: electron transfer flavoprotein-ubiquinone oxidoreductase and dihydrolipoyl dehydrogenase (DLDH). As DLDH is involved in protein-bound lipoic acid redox cycling, we analyzed the redox state of this cofactor and we observed that lipoic acid from pyruvate dehydrogenase was more oxidized in frataxin-deficient cells. Also, by targeted proteomics, we observed a decreased content on the PDH A1 subunit from pyruvate dehydrogenase. Finally, we analyzed the consequences of supplementing frataxin-deficient NRVMs with the PDH cofactors thiamine and lipoic acid, the PDH activator dichloroacetate and the antioxidants N-acetyl cysteine and Tiron. Both dichloroacetate and Tiron were able to partially prevent lipid droplet accumulation in these cells. Overall, these results indicate that frataxin-deficient NRVMs present an altered thiol-redox state which could contribute to the cardiac pathology.
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PMID:Frataxin-deficient cardiomyocytes present an altered thiol-redox state which targets actin and pyruvate dehydrogenase. 3227 39