Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Glutathione reductase from human erythrocytes exists predominatly as an entity of 100 000 molecular weight under various conditions of pH and ionic strength. The S20,W of 5.5 S and D20W of 50 mum2/s correlate with the molecular weight determined by sedimentation equilibrium. The homogeneity of this species is primarily dependent on the presence of thiols and secondarily on high concentrations of salt. The amino-acid composition of the enzyme shows similarities both with glutathione reductases from other sources and with lipoamide dehydrogenase. From the flavin content and dodecylsulphate-polyacrylamide electrophoresis it is inferred that the native enzyme is a dimer composed of similar subunits of 50 000 molecular weight. In the absence of thiols, glutathione reductase shows a tendency to form tetramers and larger aggregates. Although these larger species are also catalytically active, under cellular conditions the presence of its product, reduced glutathione, should maintain the enzyme as the dimeric entity.
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PMID:Glutathione reductase from human erythrocytes. Molecular weight, subunit composition and aggregation properties. 0 Dec 74

Reduction of the active center disulfide bond in the flavoprotein pig heart lipoamide dehydrogenase generates two sulfur moieties which are chemically inequivalent in the 2-electron reduced form of the enzyme. Thus 1 cysteine residue is at least 13-fold more reactive than its partner toward iodoacetamide at pH 7.6. This selectivity was demonstrated by reaction of the 2-electron reduced enzyme with a low concentration of iodo[1-14C]acetamide under anaerobic conditions. The formation of a monolabeled derivative is accompanied by the reappearance of a spectrum of oxidized bound flavin, clearly different from that of the native enzyme. Alkylation of the remaining cysteine residues with iodo[12C]acetamide enabled the isolation of a tryptic version of the active center disulfide peptide. A single chymotryptic cleavage between the 2 alkylated cysteine residues generated a cationic and an anionic fragment containing 7% and 93% of the radioactivity of the purified tryptic peptide, respectively. The monolabeled derivative is catalytically inactive toward reduced or oxidized lipoamide, but is approximately 2-fold better as a transhydrogenase than the native protein using NADH and acetylpyridine adenine dinucleotide as substrates. Anaerobic titration with NADH leads to reduction of the flavin with concomitant formation of long wavelength absorption of low intensity. No intermediate reduced states were detected in this titration analogous to the red 2-electron form observed with the native enzyme. Similarly, intermediates during reduction of the enzyme by 1 eq of dithionite have not been detected.
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PMID:Differential reactivity of the two active site cysteine residues generated on reduction of pig heart lipoamide dehydrogenase. 0 57

The oxidation-reduction potential, E2, for the couple oxidized lipoamide dehydrogenase/2-electron reduced lipoamide dehydrogenase has been determined by measurement of equilibria of these enzyme species with lipoamide and dihydrolipoamide or with oxidized and reduced azine dyes. E2 is -0.280 V at pH 7, and deltaE2/deltapH is -0.06 V in the pH range 5.5 to 7.6. Values for E1, the oxidation-reduction potential for the couple 2-electron reduced enzyme/4-electron reduced enzyme, were obtained from measurements of the extent of dismutation of 2-electron reduced enzyme to form mixtures containing oxidized and 4-electron reduced enzyme. E1 is -0.346 V at pH 7, and deltaE1/deltapH is -0.06 V in the pH range 5.7 to 7.6. Spectra of oxidized enzyme and 4-electron reduced enzyme do not show variations with pH over this range, but the spectrum of the 2-electron reduced enzyme is pH-dependent, with the molar extinction at 530 nm changing from 3250 M-1 cm-1 at pH 8 to 2050 M-1 cm-1 at pH 5.2. The pH-dependent changes which are observed in the absorption properties of the 2-electron reduced enzyme are consistent with the disappearance of a charge transfer complex between an amino acid side chain and the oxidized flavin at the lower pH values, with the apparent pK of the side chain at pH 5. It has been suggested that the 530 nm absorbance of 2-electron reduced enzyme is due to a charge transfer complex between thiolate anion and oxidized flavin, and we propose that the thiolate anion is stabilized by interaction with a protonated base. The thermodynamic data predict that the amount of 4-electron reduced enzyme formed when the enzyme is reduced by excess NADH will be pH-dependent, with the greatest amounts seen at low pH values. These data support earlier evidence (Matthews, R.G., Wilkinson, K.D., Ballou, D,P., and Williams, C.H., Jr. (1976) in Flavins and Flavoproteins (Singer, T.P., ed) pp. 464-472; Elsevier Scientific Publishing Co., Amsterdam) that the role of NAD+ in the NADH-lipoamide reductase reaction catalyzed by lipoamide dehydrogenase is to prevent accumulation of inactive 4-electron reduced enzyme by simple reversal of the reduction of 2-electron reduced enzyme by NADH.
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PMID:Measurement of the oxidation-reduction potentials for two-electron and four-electron reduction of lipoamide dehydrogenase from pig heart. 0 67

Cryptorchidism of the mature rat testis led to degeneration of the seminiferous tubules and changes in enzyme patterns and activities. Spermatogenic stages 1-4, containing pachytene primary spermatocytes in late meiotic prophase, and stage 5, containing recently formed round spermatids, were damaged by 48 h. Within 96 h stages showed a loss of germinal cells into the lumen and this was almost complete by 192 h. Acid phosphatase showed increased histochemical activity in the basal area of the seminiferous tubule up to 96 h of cryptorchidism, and at 192 h much of the activity was located in large lipidcontaining bodies within the remaining seminiferous epithelium. Total and free biochemical acid phosphatase decreased during cryptorchidism in parallel with cell loss; there were no significant changes in total cathepsin D activity but free enzyme activity was increased throughout the experimental period indicating increased lability of lysosomes in the Sertoli cell. Lactate dehydrogenase activity was mainly tubular but succinate dehydrogenase also showed interstitial activity. Lipoamide dehydrogenase (NADH) was found mainly in the interstitium. During cryptorchidism both lactate and succinate dehydrogenase activity decreased in the tubules parallel to the loss of germinal cells, whereas lipoamide dehydrogenase (NADH) activity increased in both interstitial and tubular areas. It is suggested that the initial lesion in the seminiferous epithelium, produced by cryptorchidism is in the Sertoli cell and that germ cell damage may result from reduced function of the Sertoli cell.
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PMID:The effect of cryptorchidism on the quantitative histology, histochemistry and hydrolytic enzyme activity of the rat testis. 2 15

Results are presented which demonstrate that the 2-electron-reduced lipoamide dehydrogenase (EC 1.6.4.3) from Escherichia coli is a mixture of species. In catalysis, this enzyme cycles between the oxidized and the 2-electron-reduced forms. Three spectrally distinct species are indicated in the pH range 5.8 to 8.0 from measurements of the fluorescence and visible spectra during dithionite titration. These have the following properties. 1) A fluorescent form where the FAD is oxidized and the active center disulfide is reduced. This species is unable to charge transfer and predominates at low pH. 2) A form in which there is a facile charge transfer between thiolate and FAD (epsilon530 - 3300 M-1 cm-1). This species, which predominates at high pH, is very similar to the 2-electron-reduced pig heart enzyme at high pH. 3) A form where the flavin is reduced and the disulfide is oxidized. The spectra of these three species have been determined. Anaerobic reduction of the enzyme with stoichiometric dihydrolipoamide leads to the formation of the charge transfer species in less than 1 s. Subsequently, in a process requiring about 12 s, the charge transfer complex relaxes to a mixture of species observed in dithionite titrations. The pH dependence of the oxidation-reduction potential, the fluorescence, the charge transfer absorbance (530 nm), and the 455 nm absorbance indicates the presence of a base which is able to stabilize the thiolate anion generated upon reduction of the active center disulfide. The pH dependence of the oxidation-reduction potential indicates that the reduction of the enzyme by dihydrolipoamide involves 2 protons as well as 2 electrons. These potentials are somewhat more positive than those determined for the pig heart enzyme and thus explain the ready further reduction of the E. coli enzyme to the 4-electron-reduced enzyme. The pH-independent formation constant (Kf) for the disproportionation of 2-electron-reduced enzyme (2EH2 in equilibrium E + EH4) is about 55 as calculated from dithionite titrations. Therefore at equilibrium there is about 80% 2-electron-reduced enzyme, 1-% oxidized enzyme, and 10% 4-electron-reduced enzyme. The spectrum of fully formed 2-electron-reduced enzyme has been calculated at several pH values from these data. The results confirm the previous conclusion that lipoamide dehydrogenase from E. coli is qualitatively similar to the pig heart enzyme, differing only in certain quantitative features such as the distribution between the various forms at the 2-electron-reduced level.
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PMID:Evidence for multiple electronic forms of two-electron-reduced lipoamide dehydrogenase from Escherichia coli. 3 77

A weak NADH oxidase activity of lipoamide dehydrogenase at neutral pH is increased as much as 15-fold by the addition of KI or (NH4)2SO4. The addition of NAD+ shifts the optimum pH for the KI-induced oxidase activity from 6.3 to 5.5 without changing the maximum activity. The optimum pH is similarly shifted to 5.6 when sulfhyldryl groups of the enzyme are oxidized in the presence of small amount of cupric ion. The NADH: lipoamide and NADH: p-benzoquinone reductase activities are strongly inhibited by KI but both are increased by the presence of (NH4)2SO4. The known intermediate having a charge-transfer band at 530 nm can be seen upon an addition of NADH to the enzyme in the presence of (NH4)2SO4 but not in the presence of KI. The enzyme flavin is reductase by a stoichiometric amount of NADH when KI is present.
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PMID:Salts- induced oxidase activity of lipoamide dehydrogenase from pig heart. 3 86

There is now a great deal of evidence to link genetic defects of pyruvate metabolism to brain disease. Experimental evidence is reviewed in Chapter 12, and clinical evidence has been reviewed above. Severe lesions of components of the pyruvate dehydrogenase complex are associated with severe generalized brain disease, and milder defects with inherited ataxias. Nearly half of one series of our ataxic patients had deficient activity of pyruvate dehydrogenase, and 40% of another series have deficient activity of the lipoamide dehydrogenase component. This last group corresponds to 60% of the patients with Friedreich's ataxia and its clinical variants at UCLA. There is an association between defective activity of lipoamide dehydrogenase and disease, and the data suggest there is a structural mutation of the gene for the enzyme. Preliminary studies suggest that obligate heterozygotes as a group have enzyme activities between those for controls and those for patients. Moreover, the obligate heterozygotes from families in which there are kinetic defects of lipoamide dehydrogenase also appear to have kinetic abnormalities of the enzyme. The ataxic patients with reduced lipoamide dehydrogenase activity currently fall into two clinical groups. One is ragged-red ataxia, and the other is a disorder that is a subgroup of the classic Friedreich's ataxia syndrome. Studies need to be undertaken on a larger group of patients, with more diverse inherited ataxias, to test the present clinical associations of the enzyme defect. A dietary treatment derived from a knowledge of the presumed defect has modified the ataxia that is associated with defects of pyruvate decarboxylase, but the diet has not yet been tested with defects of lipoamide dehydrogenase.
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PMID:Evidence for a primary defect of lipoamide dehydrogenase in Friedreich's ataxia. 10 55

The pigeon breast muscle pyruvate dehydrogenase complex was resolved into three component enzymes: lipoate acetyltransferase, pyruvate dehydrogenase, and lipoamide dehydrogenase. The antibodies against each component enzyme were prepared. All of the antibodies against component enzymes precipitated the pyruvate dehydrogenase complex. The enzyme complex was recovered as the immunoprecipitate from the extract of breast muscle of a pigeon that had received a single injection of L-[4,5-3H]leucine. The immunoprecipitate was separated into each component enzyme by SDS-polyacrylamide gel electrophoresis. The relative isotopic leucine incorporations per mg of protein into each component enzyme 4 h after the injection were 1.0 : 0.9 : 1.4 : 2.7 for lipoate acetyltransferase, alpha- and beta-subunit of pyruvate dehydrogenase, and lipoamide dehydrogenase, respectively. The half-lives of lipoate acetyltransferase, alpha- and beta-subunit of pyruvate dehydrogenase, and lipoamide dehydrogenase were 7.7, 2.5, 2.6, and 1.8 days, respectively. These results indicate that the component enzymes of the pyruvate dehydrogenase complex were synthesized and degraded at different rates.
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PMID:Turnover of pegeon breast muscle pyruvate dehydrogenase complex. 11 94

Using the method for the determination of the lipoyl dehydrogenase activity in intact erythrocytes described by Seet and Lee (1975), it was demonstrated that in patients with Spielmeyer-Vogt-Batten's disease, this activity was around the lower limit of normal. In these patients, the enzymatic activity is significantly reduced to such an extent that it may affect the function and metabolism of the erythrocytes.
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PMID:Lipoyl dehydrogenase activity of erythrocytes in Spielmeyer-Vogt-Batten's disease. 14 61

Labelling studies with N-ETHYLMALEIMIDE SHOW THAT EITHER IN THE PRESENCE OF Mg2+, thiamine pyrophosphate (TPP) and pyruvate or in the presence of NADH the overall activity of the pyruvate dehydrogenase complex from Azotobacter vinelandii is inhibited without much inhibition of the partial reactions. The complex undergoes a conformational change upon incubation with NADH. The inhibition by bromopyruvate is less specific. Specific incorporation of a fluorescent maleimide derivative was observed on the two transacetylase isoenzymes. Binding studies with a similar spin label analogue show that 3 molecules/FAD are incorporated by incubation of pyruvate, Mg2+ and TPP, whereas 2 molecules/FAD are incorporated via incubation with NADH. The spin label spectra support the idea that in the complex the active centres of the component enzymes are connected by rapid rotation of the lipoyl moiety. Three acetyl groups are incorporated in the complex by incubation with [2-14C]pyruvate. Time-dependent incorporation supports the view that the two transacetylase isoenzymes react in non-identical ways with the pyruvate dehydrogenase components of the complex. The results show that the complex contains 2 low-molecular-weight transacetylase molecules and 4 molecules of the high-molecular-weight isoenzyme. Mn2+-binding studies show that the complex binds 10 ions, with different affinities. 2 Mn2+ ions are bound with a 20-fold higher affinity than the remaining 8 Mn2+ ions. The latter 8 ions bind with equal affinities and are thought to reflect binding to the pyruvate dehydrogenase components of the complex. It is concluded that the complex contains 8 pyruvate dehydrogenase molecules, 4 high-molecular-weight transacetylase molecules, 2 low-molecular-weight transacetylase molecules and 1 dimeric (2-FAD-containing) symmetric molecule of lipoamide dehydrogenase. Evidence comes from pyruvate-dependent inactivation and labelling studies that the pyruvate dehydrogenase components contain either an - SH group or an S-S bridge which participates in the hydroxyethyl transfer to the transacetylase components.
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PMID:The pyruvate-dehydrogenase complex from Azotobacter vinelandii. 3. Stoichiometry and function of the individual components. 17 36


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