EC:1.3.5.1 - FACTA Search

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Query: EC:1.3.5.1 (succinate dehydrogenase)
8,177 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The acute effects of ethanol on the nervous system are thought to be associated with disturbance of neural membrane function. In the present study the effects of ethanol, its immediate metabolite, acetyldehyde, and tertiary butanol which is not further metabolized to an aldehyde, on selected membrane-bound enzymes were examined in vitro in rat brain. The enzymes included acetylcholinesterase, succinate dehydrogenase, Na+K+-ATPase and cytochrome c oxidase. At concentrations ranging from 0.07 - 2% w/v (15 - 435 mM) ethanol did not produce significant inhibition of any of the enzymes tested. On the other hand acetaldehyde at concentrations ranging from 0.01 - 0.5% w/v (2 - 114 mM) showed marked inhibition of all the abovementioned enzymes except acetylcholinesterase. The responses of the various enzymes to tertiary butanol were intermediate between those obtained with ethanol and acetaldehyde. Further studies are in progress to evaluate the significance of these findings to the understanding of alcohol intoxication, tolerance and dependence in man.
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PMID:Effect of ethanol and acetaldehyde on membrane-bound enzymes in rat brain. 742 41

The PutA protein of Escherichia coli has two enzymatic activities: proline dehydrogenase (PDH) and delta 1-pyrroline-5-carboxylate dehydrogenase (P5CDH). It associates with the cytoplasmic membrane as PDH and P5CDH and with put control region DNA as put repressor. Reduction of the PutA flavin by proline, a PutA conformational change and association of PutA with membranes are coincident. The nucleotide base sequence of E. coli putA was determined, that of S. typhimurium putA was updated and the deduced PutA protein sequences were surveyed for catalytic domains and ligand binding sites. The two sequences were very similar (80.5% and 95% on the nucleic acid and protein levels, respectively). Residues 650 through 1130 of PutA were very similar to the sequences of P5C dehydrogenases and aldehyde dehydrogenases from both prokaryotes and eukaryotes. Glutamate 883 and cysteine 917 of PutA were conserved with the corresponding residues in P5C dehydrogenases and with those proposed to be active site residues in the aldehyde dehydrogenases. Those relationships suggest that gamma-glutamic semialdehyde, believed to equilibrate spontaneously with P5C, is the substrate for P5C dehydrogenases. Residues 340 through 590 of PutA were similar in sequence to proline dehydrogenases from Saccharomyces cerevisiae and Drosophila melanogaster. Limited similarities were also found between residues 315 through 357 of PutA and a consensus sequence near a putative active site and FAD-binding region shared by succinate dehydrogenase sequences from several organisms. Since residues 228 through 358 of PutA were similar in sequence to several serine-pyruvate aminotransferases, PutA is proposed to catalyze the hydrolysis of P5C (a Schiff's base intermediate) to gamma-glutamic semialdehyde. A carboxyl-terminal sequence that resembles a leucine zipper motif may be involved in association of PutA with put control region DNA.
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PMID:Sequence analysis identifies the proline dehydrogenase and delta 1-pyrroline-5-carboxylate dehydrogenase domains of the multifunctional Escherichia coli PutA protein. 796 12

The subcellular localization of the aldehyde dehydrogenase activity from the ALDH (EC 1.2.1.3) enzyme has been studied in nutritionally manipulated Drosophila melanogaster adults from a wild (LRC) and an ADH-null (bAdhn4) strain. ALDH activities from ALDH or ADH (EC 1.1.1.1) enzymes were selectively inhibited by prefeeding respectively the flies sucrose solutions supplemented with either cyanamide or acetone respectively. ALDH, ADH (as a cytosolic marker) and succinate dehydrogenase (EC 1.3.9.1) (as a mitochondrial marker) activities were assayed in both the mitochondrial and cytosolic fractions isolated from flies subjected to each treatment. Total ALDH activity in the cytosolic fraction was found to be between five (ADH strain) and ten (ADH strain) times higher than that in the mitochondrial fraction. Prefeeding cyanamide resulted in a 64% (ADH strain) and a 90% (ADH strain) reduction of the cytosolic ALDH activity, whereas prefeeding acetone resulted in a 38% (ADH strain) reduction of this activity. Prefeeding both cyanamide and acetone resulted in a total inhibition of ALDH activity, which was also observed after an extended cyanamide treatment. In conclusion, our results support that, contrary to what occurs in larvae, in adults the ALDH activity from ALDH enzyme is mainly localized in the cytosolic fraction: about 85% in ADH+ and 90% in ADH- strains. Although larvae and adults use different ALDH activities to detoxify acetaldehyde (from ADH and ALDH enzymes, respectively) both of them are cytosolic. Reasons for these different uses are discussed in relation to the subcellular localization of ALDH activity.
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PMID:Aldehyde dehydrogenase (ALDH) activity in Drosophila melanogaster adults: evidence for cytosolic localization. 835 17

In view of neurotoxic properties of tetrahydroisoquinolines (TIQ's) there are open questions also in regard to the disturbance of the blood-brain barrier. Because endothelial cells are an important element of this barrier the present study was designed to assess the influence of salsolinol (a TIQ formed by condensation of dopamine and acetaldehyde) on cultivated endothelial cells by physiological, biochemical and morphological investigations. For the investigations we used aortic endothelial cells because of a variety of similarities in physiology and biochemistry to brain capillary endothelial cells. Cytotoxic effects estimated by cell counting after 72 h treatment with salsolinol (IC50 = 38 mumol/l) were possibly caused by mitochondrial damages. Already after 2 h severe ultrastructural alterations of many mitochondria could be observed. The respiration activity of the cells was always inhibited after treatment with salsolinol for some hours. The damage of the mitochondria by salsolinol was not connected with inhibition of the activity of succinate dehydrogenase and cytochrome c + c1. Nevertheless the damages of mitochondrial integrity support the hypothesis that the neurotoxic effect of salsolinol is primarily caused by damaging the endothelial cells associated with a disturbance of blood-brain barrier.
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PMID:Effects of salsolinol on cultivated endothelial cells. 851 Jul 95

The activities of key enzymes of main metabolic pathways: glycolysis, pentose phosphate pathway and tricarboxylic acid cycle, have been studied in dynamics of cultivation of toxin-producing fungus Stachybotrys chartarum 13959a. Aldolase activity increased while that of succinate dehydrogenase decreased during the fungal growth. The activity of glucose-6-phosphate dehydrogenase was high during the first days of cultivation and then it decreased. The maximum yield of acetaldehyde has been observed during the first stages of cultivation and it has not been connected with quantitative yield of pyruvate.
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PMID:[The physiological and biochemical characteristics of Stachybotrys chartarum 13959a in relation to the biosynthesis of stachybotryotoxins]. 971 89

Cyclosporin A is an immunosuppressive drug, which disrupts the activation of peripheral T-lymphocyte pool and blocks the maturation of thymocytes within the thymus. Normally, thymic nonlymphoid cells provide the optimal inductive microenvironment for development of T-lymphocytes. After application of cyclosporin A the complex alterations of the thymic microenvironment occur, affecting all types of nonlymphoid cells. All subsets of thymic epithelial cells are thoroughly changed. The subcapsular epithelial cells show the prominent enlargement of cytokeratin contents. In electron microscopy, however, these cells present the morpho-functional aspect of resting cells. The epithelial cells in deeper cortex become enlarged and stockier, whereby their cell processes appear more ramified and thicker. Thus, the cytoreticulum they create seems much denser. These cells strongly express MHC antigens. Their subcellular organization is suggestive of increased synthetic and secretory activity. The number of medullary epithelial cells is decreased. The cells with the most mature phenotype are the most prominently depleted and the ones with phenotypically and morphologically immature appearance predominate. The number of Hassall's bodies is also decreased. The number of cortical macrophages does not increase. However, these cells become enlarged showing the prominent changes in enzyme capacity, histochemical features and ultrastructural organization. Thus, they become similar to macrophages located in the cortico-medullary zone of the normal rat thymus. Cortical macrophages increase the activity of hydrolytic enzymes, acid phosphatase and nonspecific esterase, develop the strong activity of chloroacetate esterase, the strong activity of respiratory enzyme succinic dehydrogenase and begin to show the marked presence of prostaglandin synthase. Moreover, the cytoplasmic inclusions, which are aldehyde fuchsin- and PAS-positive and show sudanophilia, appear within cortical macrophages. In electron microscopy these cells show an abundant cytoplasm a very active appearance and the variety of vacuolar cytoplasmic inclusions. The mitoses of neighboring thymocytes are often seen. The number of interdigitating cells is decreased due to reduced size of thymic medulla, but these cells do not show the substantial phenotype changes. The description and classification of all types of nonlymphoid cells, which constitute the normal thymic microenvironment, is also presented. The functional significance and possible mechanisms of CSA-induced changes of the thymic microenvironment are discussed.
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PMID:Cyclosporin A-induced changes of the thymic microenvironment. A review of morphological studies. 981 May 10

THE ALDEHYDES INTRODUCED IN THIS PAPER AND THE MORE APPROPRIATE CONCENTRATIONS FOR THEIR GENERAL USE AS FIXATIVES ARE: 4 to 6.5 per cent glutaraldehyde, 4 per cent glyoxal, 12.5 per cent hydroxyadipaldehyde, 10 per cent crotonaldehyde, 5 per cent pyruvic aldehyde, 10 per cent acetaldehyde, and 5 per cent methacrolein. These were prepared as cacodylate- or phosphate-buffered solutions (0.1 to 0.2 M, pH 6.5 to 7.6) that, with the exception of glutaraldehyde, contained sucrose (0.22 to 0.55 M). After fixation of from 0.5 hour to 24 hours, the blocks were stored in cold (4 degrees C) buffer (0.1 M) plus sucrose (0.22 M). This material was used for enzyme histochemistry, for electron microscopy (both with and without a second fixation with 1 or 2 per cent osmium tetroxide) after Epon embedding, and for the combination of the two techniques. After fixation in aldehyde, membranous differentiations of the cell were not apparent and the nuclear structure differed from that commonly observed with osmium tetroxide. A postfixation in osmium tetroxide, even after long periods of storage, developed an image that-notable in the case of glutaraldehyde-was largely indistinguishable from that of tissues fixed under optimal conditions with osmium tetroxide alone. Aliesterase, acetylcholinesterase, alkaline phosphatase, acid phosphatase, 5-nucleotidase, adenosine triphosphatase, and DPNH and TPNH diaphorase activities were demonstrable histochemically after most of the fixatives. Cytochrome oxidase, succinic dehydrogenase, and glucose-6-phosphatase were retained after hydroxyaldipaldehyde and, to a lesser extent, after glyoxal fixation. The final product of the activity of several of the above-mentioned enzymes was localized in relation to the fine structure. For this purpose the double fixation procedure was used, selecting in each case the appropriate aldehyde.
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PMID:Cytochemistry and electron microscopy. The preservation of cellular ultrastructure and enzymatic activity by aldehyde fixation. 1397 66

Torulopsis glabrata CCTCC M202019 was mutated by ethidium bromide to screen for respiratory-deficient mutants. Seven mutants that produced pyruvate higher than that of the parent were subjected to the tests of the capability assimilating fermentable substrate (glucose) and non-fermentable substrates (glycerol and acetate) to characterize true respiratory-deficient mutants. Mutants RD-16, RD-17 and RD-18 were unable to assimilate acetate or glycerol and were therefore identified as respiratory-deficient mutants. Compared to the parent strain, the growth the intracellular ATP content of those mutants decreased by 21% - 29% and 15% - 21%, respectively, while the glucose consumption per cell and the pyruvate production per cell of those mutants were enhanced by 20.7% - 30.7% and 30.7% - 55.5%, respectively. Qualitative analysis of cytochromes involved in electron transfer chain showed that mutants RD-16 and RD-18 lacked both cytochrome aa3 and b, while mutant RD-17 lacked cytochrome b. Enzymes analysis indicated that the activities of ATPase, succinate-cytochrome c reductase (complex I ), complex I + III , complex II + III, and complex IV of those mutants decreased by 14.6% - 22.2%, 34% - 41%, 38.6% - 52.6%, 21% - 25%, and 150% - 630%, respectively. However, increased glucose consumption per cell was not observed in those mutants, which might be due to that the NADH generated in glycolysis can not be completely oxidized via electron transfer chain. To avoid the accumulation of NADH, 2.1 mmol/L acetaldehyde was added to the culture broth of mutant RD-17 at 26h of fermentation. Using this strategy, the amount of pyruvate produced increased by 21.6% while the fermentation time was shortened from 62h to 48h.
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PMID:[The decrease of the activity of electron transfer chain of Torulopsis glabrata enhanced pyruvate productivity]. 1611 Sep 64

This study aimed at increasing the pyruvate productivity of a multi-vitamin auxotrophic yeast Torulopsis glabrata by redirecting NADH oxidation from adenosine triphosphate (ATP)-production pathway (oxidative phosphorylation pathway) to non-ATP production pathway (fermentative pathway). Two respiratory-deficient mutants, RD-17 and RD-18, were screened and selected after ethidium bromide (EtBr) mutagenesis of the parent strain T. glabrata CCTCC M202019. Compared with the parent strain, cytochrome aa (3) and b in electron transfer chain (ETC) of RD-18 and cytochrome b in RD-17 were disrupted. As a consequence, the activities of key ETC enzymes of the mutant RD-18, including F(0)F(1)-ATP synthase, complex I, complex I + III, complex II + III, and complex IV, decreased by 22.2, 41.6, 53.1, 23.6, and 84.7%, respectively. With the deficiency of cytochromes in ETC, a large amount of excessive cytosolic NADH was accumulated, which hampered the further increase of the glycolytic flux. An exogenous electron acceptor, acetaldehyde, was added to the strain RD-18 culture to oxidize the excessive NADH. Compared with the parent strain, the concentration of pyruvate and the glucose consumption rate of strain RD-18 were increased by 26.5 and 17.6%, respectively, upon addition of 2.1 mM of acetaldehyde. The strategy for increasing the glycolytic flux in T. glabrata by redirecting the NADH oxidation pathway may provide an alternative approach to enhance the glycolytic flux in yeast.
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PMID:Redirection of the NADH oxidation pathway in Torulopsis glabrata leads to an enhanced pyruvate production. 1640 61

Several lines of research suggest that mitochondria play a role in the etiopathogenesis of diabetic cardiomyopathy, although the mechanisms involved are still debated. In the present study, we report that State 3 oxygen consumption decreases by approximately 35% with glutamate and by approximately 30% with succinate in mitochondria from diabetic rat hearts compared to controls. In these mitochondria the enzymatic activities of complex I and complex II are also decreased to a comparable extent. Western blot analysis of mitochondrial protein pattern using antibodies recognizing proteins modified by the lipid peroxidation product 4-hydroxynonenal indicates the FAD-containing subunit of succinate dehydrogenase as one of the targets of this highly reactive aldehyde. In rats diabetic for 6 or 12 weeks, insulin supplementation for 2 weeks decreases the level of protein modified by 4-hydroxynonenal and restores mitochondrial respiration and enzyme activity to control level. Taken together, these results: (1) indicate that 4-hydroxynonenal is endogenously produced within diabetic mitochondria and forms an adduct with selective mitochondrial proteins, (2) identify one of these proteins as a subunit of succinate dehydrogenase, and (3) provide strong evidence that insulin treatment can reverse and ameliorate free radical damage and mitochondrial function under diabetic conditions.
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PMID:Decreased complex II respiration and HNE-modified SDH subunit in diabetic heart. 1652 Feb 40

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