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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)

An oxygen-induced iron superoxide dismutase was found in the culture fluid of the thermoacidophilic crenarchaeon Sulfolobus solfataricus during growth on glucose-rich media. This protein was also identified as being associated with the cell-surface, with the amount of the released and cell-bound protein fractions depending on the growth phase of the cells. The steady decrease in cell-associated superoxide dismutase during continued growth correlated with the increase of free superoxide dismutase in the medium. Both enzyme fractions were purified to homogeneity and found to be active with different catalytic efficiency, with the released superoxide dismutase showing a fourfold lower specific activity. Characterization in comparison with the cytosolic superoxide dismutase revealed identical N-terminal sequences, electrophoretic mobility, isoelectric point, and molecular mass for all three differently located enzymes. In order to clarify the physiological role of the cell-associated superoxide dismutase, the prevention of cell-bound protein deactivation by oxyradicals was also investigated. Glucose dehydrogenase, which was chosen as a model enzyme, was demonstrated to be located on the cell surface and to be inactivated by potassium superoxide by in vivo assays. The direct protective effect of superoxide dismutase on glucose dehydrogenase was demonstrated by in vitro assays on the free released enzyme. Similarly, the prevention of deactivation by potassium superoxide was also demonstrated for the integral membrane protein succinate dehydrogenase by intact cell assay. Superoxide dismutase added to cells was shown to moderately reduce the critical damaging peroxidation and hence play a major role in maintaining the integrity of the outer cell envelope components.
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PMID:A superoxide dismutase from the archaeon Sulfolobus solfataricus is an extracellular enzyme and prevents the deactivation by superoxide of cell-bound proteins. 1060 72

A convenient model for studying the mechanisms of biological self-organization is described by morphometric investigation of formation of mitochondrion associations in medium containing physiological concentration of potassium ions without nonpolar substances. Association formation was considerably better at 15-18 degrees C during isolation and storage than at 0 degree C. The existence of filamented mitochondria in homogenate was also shown by staining of succinate dehydrogenase. Formation of associations increased in medium pretreated with negative air ions carrying superoxide and is probably due to hydrogen peroxide. The effect of substances influencing the surface charge on association formation was studied.
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PMID:[Self-organization of mitochondrial associates and effects of negative air ions]. 1073 15

Histoenzymological methods usually performed on muscle fibres have been adapted to assess the functioning of oxidative phosphorylation in human circulating blood lymphocytes and monocytes. Oxidases and dehydrogenases were analysed in lymphocyte/monocyte smears. The specificity of each histoenzymological reaction was tested using a specific respiratory chain inhibitor: rotenone for NADH diaphorase, thenoyltrifluoroacetone for succinate dehydrogenase, potassium cyanide for cytochrome c oxidase and oligomycin for ATPase. Complex I activity was detected, but inhibition with rotenone was incomplete. Complexes II, IV and V were almost completely inhibited. These observations indicate that histoenzymology is a valuable method for detecting the activity of these oxidative phosphorylation enzymes in lymphocytes and monocytes. The histoenzymology tests performed on fresh peripheral blood cells resembled those used for muscle biopsies. They could be useful for the diagnosis of respiratory chain disorders in patients.
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PMID:Histoenzymology of oxidases and dehydrogenases in peripheral blood lymphocytes and monocytes for the study of mitochondrial oxidative phosphorylation. 1084 8

Experiments with inside-out patches excised from pancreatic B-cells have yielded evidence that mitochondria are often contained in the cytoplasmic plug protruding into the tip of patch pipette. When intact B-cells were loaded with the fluorescent mitochondrial stain, rhodamine 123, and membrane patches excised from these cells, a green fluorescence could be observed in the lumen at the tip of the patch pipette. The same result was obtained with the mitochondrial stain, MitoTracker Green FM, which is only fluorescent in a membrane-bound state. Furthermore, the open probability of ATP-dependent potassium (K(ATP)) channels in inside-out patches was influenced by mitochondrial fuels and inhibitors. Respiratory substrates like tetramethyl phenylene diamine (2 mM) plus ascorbate (5 mM) or alpha-ketoisocaproic acid (10 mM) reduced the open probability of K(ATP) channels in inside-out patches significantly (down to 57% or 65% of control, respectively). This effect was antagonized by the inhibitor of cytochrome oxidase, sodium azide (5 mM). Likewise, the inhibitor of succinate dehydrogenase, malonate (5 mM), increased the open probability of K(ATP) channels in the presence of succinate (1 mM). However, oligomycin in combination with antimycin and rotenone did not increase open probability. Although it cannot be excluded that these effects result from a direct interaction with the K(ATP) channels, the presence of mitochondria in the close vicinity permits the hypothesis that changes in mitochondrial metabolism are involved, mitochondria and K(ATP) channels thus forming functional microcompartments.
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PMID:Mitochondria present in excised patches from pancreatic B-cells may form microcompartments with ATP-dependent potassium channels. 1088 71

We investigated the cardioprotective effect of 3-nitropropionic acid (3-NPA), an inhibitior of mitochondrial succinate dehydrogenase, and we wanted to show whether this protection is mediated by of opening mitochondrial ATP-sensitive potassium (K(ATP)) channels. Adult rabbits were treated with either 3-NPA (3 mg/kg iv) or saline (n = 6 rabbits/group). After 30 min (for early phase) or 24 h (for late phase) of the treatment, the animals were subjected to 30 min of ischemia and 3 h of reperfusion (ischemia-reperfusion). 5-Hydroxydecanoate (5-HD, 5 mg/kg iv),the mitochondrial K(ATP) channel blocker, was administered 10 min before ischemia-reperfusion in the saline- and 3-NPA-treated rabbits. 3-NPA caused a decrease in the infarct size from 27.8 +/- 4.2% in the saline group to 16.5 +/- 1.0% in the 3-NPA-treated rabbits during early phase and from 30.4 +/- 4.2% in the saline group to 17.6 +/- 1.05 in the 3-NPA group during delayed phase (P < 0.05, % of risk area). The anti-infarct effect of 3-NPA was blocked by 5-HD as shown by an increase in infarct size to 33 +/- 2.7% (early phase) and 31 +/- 2.4% (delayed phase) (P < 0.05 vs. 3-NPA groups). 5-HD had no proischemic effect in control animals. Also, 3-NPA had no effect on systemic hemodynamics. We conclude that 3-NPA induces long-lasting anti-ischemic effects via opening of mitochondrial K(ATP) channels.
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PMID:Chemical preconditioning with 3-nitropropionic acid in hearts: role of mitochondrial K(ATP) channel. 1129 48

The purpose of this study was to evaluate the interactive toxicity of ethanol with potassium dichromate (K2Cr2O7-chromium). Young, male Wistar rats (100-120 g) were divided into four groups of five or six animals each and were dosed, through water, with 10% ethanol (vol./vol.) or 25 ppm chromium or were dosed with a combination of ethanol+chromium at the same concentrations for a period of 22 weeks ad libitum and were maintained on normal diet. Control animals were maintained on a normal diet and water for the same period. The serum succinate dehydrogenase and liver total triglyceride levels were significantly reduced in the three treated groups. The serum alkaline phosphatase levels were significantly reduced in ethanol-treated rats, and there was no significant change in the acid phosphatase activity. Serum aspartate and alanine aminotransferase levels in the three treated groups were significantly increased. The liver glycogen significantly decreased in both the ethanol-treated and the chromium-treated rats. There was a significant increase in liver total cholesterol levels in chromium-treated rats. Total glutathione levels were significantly decreased in the livers of ethanol-treated and ethanol+chromium-treated rats. To further substantiate these findings, a histological examination of the liver and kidneys was undertaken. The livers of alcohol-treated animals showed altered hepatic architecture in the centrilobular and periportal areas, with increased sinusoidal space (space of Disse), vacuolation, and necrosis of hepatocytes. Similar changes were observed in a histological examination of the livers of chromium-treated rats, except that the damage to the hepatocytes was more confined to the periportal area. Moreover, histological examination of the livers of ethanol+chromium-treated rats revealed uniform damage in the centrilobular and periportal areas, as was observed in the groups treated either with ethanol or chromium. The histological examination of the kidneys in the three treated groups revealed significant damage to the renal tubules and Bowman's capsule, which showed vacuolation and degeneration of the basement membrane. These findings correlate well with the serum enzyme levels found in the treated groups. It is evident from this study that chronic ethanol consumption sensitizes the liver to the toxic action of agents such as chromium. It leads to impairment of the biochemical functions in the liver, and it causes liver and kidney damage. Long-term simultaneous exposure to ethanol and chromium may cause severe health problems in people who are alcoholics and work in chrome-plating and leather-tanning industries.
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PMID:A subtoxic interactive toxicity study of ethanol and chromium in male Wistar rats. 1133 Nov 7

Regulation of succinate dehydrogenase was investigated using tightly coupled potato tuber mitochondria in a novel fashion by simultaneously measuring the oxygen uptake rate and the ubiquinone (Q) reduction level. We found that the activation level of the enzyme is unambiguously reflected by the kinetic dependence of the succinate oxidation rate upon the Q-redox poise. Kinetic results indicated that succinate dehydrogenase is activated by both ATP (K(1/2) approximately 3 microm) and ADP. The carboxyatractyloside insensitivity of these stimulatory effects indicated that they occur at the cytoplasmic side of the mitochondrial inner membrane. Importantly, our novel approach revealed that the enzyme is also activated by oligomycin (K(1/2) approximately 16 nm). Time-resolved kinetic measurements of succinate dehydrogenase activation by succinate furthermore revealed that the activity of the enzyme is negatively affected by potassium. The succinate-induced activation (+/-K(+)) is prevented by the presence of an uncoupler. Together these results demonstrate that in vitro activity of succinate dehydrogenase is modulated by the protonmotive force. We speculate that the widely recognized activation of the enzyme by adenine nucleotides in plants is mediated in this manner. A mechanism that could account for such regulation is suggested and ramifications for its in vivo relevance are discussed.
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PMID:New insights into the regulation of plant succinate dehydrogenase. On the role of the protonmotive force. 1135 Sep 73

Direct nonenzymatic oxidation of semiquinone by oxygen is one of the main sources of superoxide radicals (O2.-) in mitochondria. By using all the known data on hepatocyte mitochondria, we have revealed the correlation between the rate of superoxide generation by the bc1 complex and the transmembrane potential (delta psi). If the main electrogenic stage of the Q cycle is suggested to be the electron transfer between the cytochrome b hemes, then the rate of superoxide generation sharply increases when delta psi grows from 150 mV to 180 mV. However, this interrelation is ambiguous. Indeed, the increase of the generation rate with the growth of the potential can occur faster when succinate dehydrogenase is inhibited by malonate than when external ADP is exhausted. When the potential is changed by adding phosphate or potassium (K+), the rate of O2.- production remains constant, although the comparison of the rate values at the same delta psi reveals the effect of phosphate or potassium. It turned out that the rate of O2.- generation is a function of delta mu H rather than any of its components. Phosphate and K+ have practically no influence on delta mu H, since the change in delta psi is compensated by delta pH. The rate of superoxide generation by the bc1 complex is a multiple function of the electron-transfer activity of enzymes, the processes determining the membrane potential (e.g., loading), and of the oxygen concentration. The kinetic model proposed in this work may serve a tool to understand how the superoxide production is regulated.
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PMID:[Kinetic modeling of energy metabolism and generation of active forms of oxygen in hepatocyte mitochondria]. 1177 Nov 35

With respect to neuromuscular function, aldosterone activity, enzymatic and potassium (K) metabolism of organ tissues were investigated during the stress and adaptation stabilized phases of hypodynamically stressed rats. During adaptation, muscle tissue enzymes, such as aldolase, showed no change until the 35th day. The decrease of succinic dehydrogenase (SDH) was evident at 7 days. Lactic dehydrogenase (LDH) and creatine phosphokinase (CPK) serum levels increased transiently on the 18th day; this implied the development of muscular atrophy. A decrease in the 42K uptake of muscle was found from the 18th day onward. In the brain, a progressive decrease of aldolase was observed. 42K uptake showed no change in the brain, but the K content increased at both 7 and 18 days of exposure. The increase of cholinesterase (ChE) was more remarkable in the brain than in muscle, although transient. We suggest that the brain plays an important part in the adaptation process, through increasing or maintaining the functions of the neuromuscular excitation system during the 7-18 days of hypodynamic exposure.
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PMID:Changes in enzymes and potassium content of the neuromuscular systems of albino rats during prolonged exposure to simulated hypogravics. 1200 7

Oxidation of glycerophosphate (GP) by brown adipose tissue mitochondria in the presence of antimycin A was found to be accompanied by significant production of hydrogen peroxide. GP-dependent hydrogen peroxide production could be detected by p-hydroxyphenylacetate fluorescence changes or as an antimycin A-insensitive oxygen consumption. One-electron acceptor, potassium ferricyanide, highly stimulated the rate of GP-dependent antimycin A-insensitive oxygen uptake, which was prevented by inhibitors of mitochondrial GP dehydrogenase (mGPDH) or by coenzyme Q (CoQ). GP-dependent ferricyanide-induced peroxide production was also determined luminometrically, using mitochondria or partially purified mGPDH. Ferricyanide-induced peroxide production was negligible, when succinate or NADH was used as a substrate. These results indicate that hydrogen peroxide is produced directly by mGPDH and reflect the differences in the transport of reducing equivalents from mGPDH and succinate dehydrogenase to the CoQ pool. The data suggest that more intensive production of reactive oxygen species may be present in mammalian cells with active mGPDH.
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PMID:Glycerophosphate-dependent hydrogen peroxide production by brown adipose tissue mitochondria and its activation by ferricyanide. 1201 87


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