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)

A study was made of the role of prolactin (PRL) in the regulation of thyroid function in intact animals and in those exposed to stress (swimming was used as physical exercise). A single daily dose of 125 micrograms of PRL per 100 g of body mass was injected subcutaneously in 0.5 ml of saline solution during a week to male rats (control: intact rats; injection of 0.5 ml of saline solution subcutaneously). Redox enzymes; succinate dehydrogenase, lactate dehydrogenase, glucose-6-phosphate dehydrogenase, NAD.H2 and NADP.H2, ATPase and monoamine oxidase, total protein, RNA and glycogen in glandular cells were investigated histochemically 24 h after the last injection of PRL or saline, 30 min., 1, 2, 3, 5 and 7 hours after swimming or right after complete fatigue (in the presence of experimental hyperprolactinemia). A conclusion has been made that one of the most important mechanisms of the adaptive effect of PRL is its ability to suppress thyroid function, thus decreasing the metabolism level, which results in reduction of oxygen consumption and improves body tolerance to stress.
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PMID:[Metabolism of thyroid gland cells as affected by prolactin and emotional-physical stress]. 178 Feb 95

Regulation of respiration at all rates between State 4 and State 3 was studied in heart mitochondria oxidizing FAD- and NAD-dependent substrates (succinate, pyruvate + + malate and palmitoylcarnitine). The creatine phosphokinase ADP-regenerating system was used which allows to fix the concentrations of extramitochondrial adenine nucleotides in such a way that the rate of respiration is controlled by mitochondrial processes alone. It was shown that respiration is controlled by delta mu(H+)-utilizing system within the respiration rate interval from State 4 till 70-80% of the maximal rate in State 3 (corresponding to physiological rates) both for NAD- and FAD-dependent substrates. The main step in the control of respiration near State 4 is proton leakage through the inner mitochondrial membrane, whereas in all the other parts of the mentioned interval this role is assigned to the adenine nucleotide translocator (ANT). The control coefficient for ANT is higher, while that of proton leakage is lower at the same relative rates of respiration with NAD-dependent substrates compared with succinate. These differences were found to be related to much higher values of the membrane potential generated at the same relative rates of succinate oxidation in comparison with the case with pyruvate + + malate. The contribution of delta mu(H+)-utilizing system to respiration control sharply decreases, whereas that of the delta mu(H+)-generating system increases at maximal rates of respiration near State 3. This phenomenon in more characteristic of succinate. In this case the control coefficient of ANT drops to zero, while that of succinate dehydrogenase rises to 0.7.
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PMID:[Regulation of the heart mitochondrial respiration rate. Comparison of oxidation of succinate and NAD-dependent substrates]. 178 65

Initiation of lipid peroxidation in the inner mitochondrial membrane was investigated using respiratory substrates and inhibitors and various iron chelates. An iron chelate was required for initiation of lipid peroxidation in the presence of either NADH or NADPH. The two nicotinamide nucleotides exhibited different activities in initiating lipid peroxidation with regard to concentration and to the effects of rotenone and rhein. Succinate and both nicotinamide nucleotides supported lipid peroxidation in the presence of thenoyl trifluoroacetone (TTFA), without a requirement for exogenously added iron. ADP stimulated lipid peroxidation in the case of NAD(P)H and TTFA, but inhibited it in the case of succinate and TTFA. Lipid peroxidation is thought to be enzymatically induced in both the NADH and the succinate dehydrogenase regions of the respiratory chain, and evidence is presented for a novel pathway of NADPH oxidation that may also be involved. Possible initiation mechanisms are discussed.
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PMID:Initiation of lipid peroxidation in submitochondrial particles: effect of respiratory inhibitors. 189

Dietary products of lipid peroxidation cause hepatic dysfunctions such as reductions in activities of aldehyde dehydrogenase (mitochondrial NAD-dependent), succinate dehydrogenase, phosphoglucomutase, glucokinase, and glucose-6-phosphate dehydrogenase, and a depletion of coenzyme A. Toxic products in the peroxidation are considered to be the aldehydes among the decomposed products from hydroperoxides, because the decomposed products were incorporated into the liver but the other products were not when they were administered orally to rats. There are three current ideas on the causes of the dysfunctions: (a) direct attack of the incorporated aldehydes on the enzymes, (b) injury of the bio-membranes by the aldehydes, and (c) disturbance of the synthetic system for enzymes. In this study, to examine these ideas, a reasonable concentration of the peroxidation products to use in vitro was estimated from the amounts present in the liver after an oral dose of lipid peroxidation products. With respect to idea (a), when the peroxidation products were added to subcellular fractions of hepatocytes, the decomposed products specifically inactivated aldehyde dehydrogenase and glucose-6-phosphate dehydrogenase, and destroyed coenzyme A. For ideas (b) and (c), in which the parenchymal hepatocytes isolated from rat were used, the decomposed products did not seem to injure the bio-membrane, but they inhibited induction of glucokinase by hormones in the hepatocytes. It was concluded that in the hepatic dysfunction caused by the dietary products of lipid peroxidation the incorporated decomposed products in the liver directly inactivated the mitochondrial NAD-dependent aldehyde dehydrogenase and glucose-6-phosphate dehydrogenase, destroyed coenzyme A, and disturbed the synthetic system of glucokinase.
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PMID:Hepatic dysfunction caused by dietary products of lipid peroxidation. 195 95

Two carbon catabolite repression mutants of S. cerevisiae were isolated and characterized. In spite of the selection procedure (red colonies after tetrazolium overlay at high glucose concentration) the mutants exhibited a respiration which was as repressed as that of the parental strain or even more repressed. When grown at high glucose concentration the mutants display hyper-repression of cytochrome aa3 and of certain mitochondrial enzymes (L- and D-lactate dehydrogenases) but not of others (malate dehydrogenase, succinate dehydrogenase), indicating the existence of separate control sites for the different genes involved in the mitochondrial biogenesis. The data obtained pointed out that the same mutation affects both repression and derepression. In addition, the mutation(s) give rise to the complete derepression of the cytoplasmic enzyme NAD-glutamate dehydrogenase at 10% glucose whereas the enzyme is normally repressed at 3% glucose. The results of the genetic analysis indicate the mitochondrial nature of the mutation(s).
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PMID:Isolation and characterization of carbon catabolite repression mutants in Saccharomyces cerevisiae. 208 99

The activity of human myocardial enzymes in sudden coronary death (SCD) was quantitatively histochemically examined. The activity of succinate dehydrogenase (SDH), lactate dehydrogenase (LDH), beta-oxybutyrate dehydrogenase (beta-OBDH), alpha-glycerolphosphate dehydrogenase (alpha-GPDH), NAD-diaphorase (NAD-ase), and glucose-6-phosphate dehydrogenase (G-6-PDH) was measured on prompt autopsies (up to 3 hours of death onset). beta-OBDH and LDH showed an increase in activity in the myocardium from the subjects who had suddenly died from coronary heart disease without evident changes in the heart. In SCD in the presence of small cardiosclerosis, the activity of the enzymes characterizing the major processes of energy generation was also enhanced, which was caused by moderately severe myocardial hypertrophy. In the myocardium from the subjects who had died from coronary heart disease in the presence of large postinfarction cardiosclerosis, the activity of the enzymes was directly related to the degree of myocardial hypertrophy and the signs of chronic heart failure. As myocardial hypertrophy progressed, the enzymatic activity rose, but there were signs of chronic heart failure, it fell. The findings suggest that the changes in myocardial enzymatic activity in SCD are heterogeneous and associated with the type of prior abnormalities in the cardiovascular system.
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PMID:[Disorders of myocardial metabolism in sudden coronary death in the presence of coronary atherosclerosis: findings of quantitative histoenzymologic studies]. 221 37

The tetrazolium salt procedure of van Gelder (1965) for the demonstration of GABA transaminase (GABAT; the most important GABA degrading enzyme) was adapted for microphotometric measurements of GABAT activities in brain sections using the hippocampus of rats as selected brain region. The final incubation medium consisted of 50 mM GABA, 5 mM alpha-ketoglutarate, 7 mM NAD, 10 mM sodium azide, 6 mM nitroblue tetrazolium chloride, 20 mM malonate and 15% polyvinyl alcohol in 0.05 M Hepes buffer; the final pH was 8.0. There was a linear relationship between GABAT activity and section thickness up to 14 microns and between GABAT activity and reaction time at least up to 20 min (kinetic and end-point measurements). Phenazine methosulfate as an exogenous electron carrier and pyridoxal-5-phosphate as coenzyme of GABAT did not enhance the demonstrable GABAT activities, whereas sodium azide as a blocker of the respiratory chain resulted in an increase of demonstrable enzyme activities. A coreaction of succinate dehydrogenase was excluded by the use of malonate (competitive inhibitor). Using the incubation medium described GABAT activities were demonstrated via the endogenous enzymes succinic semialdehyde dehydrogenase and NADH tetrazolium reductase which were shown to be not rate limiting and seems to be similarly localized as GABAT.
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PMID:Microphotometric determination of enzymes in brain sections. II. GABA transaminase. 233 51

The effect of rhein on the oxygen consumption, oxidative phosphorylation, ATPase activity and redox state of electron carriers of rat liver mitochondria has been studied. Rhein inhibits ADP- and uncoupler-stimulated respiration on various NAD-linked substrates and succinate, but stimulates state 4 respiration of mitochondria respiring on succinate. Experiments on specific segments of the respiratory chain showed that rhein does not inhibit electron flow through cytochrome oxidase. Electron flow through site 2, the ubiquinone-cytochrome b-cytochrome c1 complex, was also unaffected by rhein, which failed to inhibit the oxidation of duroquinol. Rhein affects oxidative phosphorylation by inhibiting both electron transfer and ADP-driven H+ uptake. The inhibition of succinate oxidation by rhein was found to take place at a point between succinate and ubiquinone, perhaps at the level of succinic dehydrogenase. Spectroscopic evidence demonstrated that rhein induces a NAD(P)H oxidation in mitochondria respiring either on endogenous substrates or on glutamate + malate, and an inhibition of the cytochrome b reduction by succinate. These observations, together with other evidence, suggest that rhein inhibits electron transport in rat liver mitochondria at the dehydrogenase-coenzyme level, particularly when the electron carriers are in a relatively oxidized state and/or when the inner membrane-matrix compartment is in the condensed state.
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PMID:Sites of inhibition of mitochondrial electron transport by rhein. 252 79

Enzyme activity was measured in 164 white rats exposed to hypokinesia of varying duration. NAD- and NADP-dependent isocitrate dehydrogenases (ICDH) decreased on hypokinesia day 7 and returned to normal on recovery days 4-5. Their enzyme activity was diminished on hypokinesia day 15. NAD- and NADP-dependent ICDH returned to normal on recovery days 11 and 7, respectively. Activity of alpha-ketoglutarate dehydrogenase (KGDH) and succinate dehydrogenase (SDH) decreased immediately after hypokinesia and remained lowered till day 18. Activity of pyruvate dehydrogenase (PDH) was decreased on recovery days 1-3 and increased on days 9-17. After 30-day hypokinesia PDH activity was lower than normal on recovery days 2-14. 30-day hypokinesia led to reduction of ICDH, KGDH, and SDH. NADP-dependent ICDH returned to normal on recovery day 12 and other enzymes during the third week of readaptation. These results suggest that during recovery the enzymes that are responsible for energy metabolism restoration are first to return to normal.
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PMID:[Changes in the mitochondrial oxidative enzyme activity in the skeletal muscles od rats during the recovery period after hypokinesia of varying duration]. 259 11

Trypanosoma brucei procyclic trypomastigotes were made permeable by using digitonin (0-70 micrograms/mg of protein). This procedure allowed exposure of coupled mitochondria to different substrates. Only succinate and glycerol phosphate (but not NADH-dependent substrates) were capable of stimulating oxygen consumption. Fluorescence studies on intact cells indicated that addition of succinate stimulates NAD(P)H oxidation, contrary to what happens in mammalian mitochondria. Addition of malonate, an inhibitor of succinate dehydrogenase, stimulated NAD(P)H reduction. Malonate also inhibited intact-cell respiration and motility, both of which were restored by further addition of succinate. Experiments carried out with isolated mitochondrial membranes showed that, although the electron transfer from succinate to cytochrome c was inhibitable by antimycin, NADH-cytochrome c reductase was antimycin-insensitive. We postulate that the NADH-ubiquinone segment of the respiratory chain is replaced by NADH-fumarate reductase, which reoxidizes the mitochondrial NADH and in turn generates succinate for the respiratory chain. This hypothesis is further supported by the inhibitory effect on cell growth and respiration of 3-methoxyphenylacetic acid, an inhibitor of the NADH-fumarate reductase of T. brucei.
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PMID:The role of succinate in the respiratory chain of Trypanosoma brucei procyclic trypomastigotes. 271 53

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