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)

Exposure of rats to hypobaric stress for periods of up to 36 h caused a consistent change in the succinate-NT reductase activity of the heart mitochondria whereas there was no significant change in the activities of either succinate dehydrogenase and succinate-NT reductase of the brain and the kidney. Mitochondrial succinate dehydrogenase of the heart, the brain and the kidney was activated 2- to 7-fold with the substrate and malonate. The activations obtained with oxalate, citrate and dinitrophenol were relatively lower in comparison to succinate and malonate. Benzohydroquinone and 2-nitrophenol had no stimulatory effect on the heart, the brain and the kidney mitochondria. THE ACTIVATIONS OBTAINED WITH THE VARIOUS EFFECTORS PARTIALLY (OR COMPLETELY IN THE CASE OF SUCCINATE) REVERSED ON WASHING THE MITOCHONDRIAL SAMPLES WITH THE SUCROSE HOMOGENIZING MEDIUM. The effect of ubiquinol, which also activated the enzyme, was only partially reversed after the second preincubation with succinate in the brain and the kidney whereas in the heart the activity was fully reversed. The increased activity of succinate dehydrogenase obtained with ATP and ADP was further enhanced by Mg2+ exclusively in the brain mitochondria, suggesting the possibility of Mg2+-AIP complex as the active species. Succinate-NT reductase of the heart, the brain and the kidney mitochondria showed a high activation with ubiquinone whereas its reduced form had no stimulatory effect.
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PMID:Oxidation of succinate in heart, brain, and kidney mitochondria in hypobaria and hypoxia. 16 66

The present investigation was undertaken in order to establish an optimal tissue pretreatment and an optimal incubation medium for the histochemical demonstration of succinate dehydrogenase (E.C. 1.3.99.1). The investigations were performed on steroid producing (testicle, adrenal gland) and steroid dependent (Fallopian tube) tissues. We studied the influences fo formalin fixation, acetone, magnesium ions, cyanides, electron carries (phenazine methosulfate, menadione coenzyme Q10), osmolarity, substrate concentration and inhibitors (oxalacetate, oxalate, malonate, 4-chloromercuribenzoic acid). The following procedure yields blameless morphological integrity and enzyme localization as well as optimal SDH-activity: Freezing of tissue cubes (diameter less than 5 mm) in propane cooled with liquid nitrogen or in melting freon. Incubation of 5 micrometer cryostat sections in narrow jars in the following medium (38.5 ml):--10 ml of 0.2 M sodium phosphate buffer pH 7.6 (52 mM).--18 mg tetranitro-BT in 0.5 ml dimethylformamide and aqua bidest. ad 10 ml (0.5 mM).--2.6 mg KCN in 16 ml aqua bidest. (1 mM).--540 mg succinate (disodium salt, hexahydrate) in 2 ml aqua bidest. (52 mM).--3 mg PMS (phenazine methosulfate) in 0.5 ml aqua bidest. (0.25 mM). The incubation medium has an osmolarity of 440 mosm. The incubation is carried out for 10 min at 37 degree C in darkness. To avoid non specific formazan deposits in lipid containing tissues a preincubation of the cryostat sections in 100% acetone at--22 degree C or--40 degree C for 7--10 min and an incubation time of 20--30 min is recommended. Control incubations adduced proof at the specificity of the SDH demonstration. Parallel incubation without PMS in order to determine indirectly the content of endogenous CoQ10 is further recommended.
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PMID:Studies on the optimalisation and standardisation of the light microscopical succinate dehydrogenase histochemistry. 68 25

The activities of L-threonine dehydrogenase (I), 2-amino-3-oxybutyrate:CoA ligase (II), malate synthetase (III), isocitrate lyase (IV), glyoxylate dehydrogenase (V), glycine decarboxylase (VI), L-serine hydroxymethyltransferase (VII), glucan synthetase (VIII), glucose 6-phosphate dehydrogenase (IX) and succinic dehydrogenase (X) were detected in cell-free extracts prepared from the mycelium of the fungus Sclerotium rolfsii type R. Transfer of S. rolfsii to a threonine-containing medium resulted in a significant increase in the intracellular concentrations of L-threonine, glycine, serine and glyoxylate, and a decrease in oxalate. Incubation with 14C-labelled L-threonine resulted in an immediate output of 14CO2, and an accumulation of labelled glycine and serine in the mycelium. L-Threonine (10(-2)M) increased branching, favoured formation of sclerotia, and induced the formation of enzymes I to VIII, but not IX and X. Sodium oxalate (1-5 X 10(-2)M) inhibited branching, sclerotium formation and the activity of enzymes III and IV. Glycine (10(-1) M) inhibited branching, sclerotium formation and activity of I and II. Ammonium chloride (10(-1) to 10(-2) M) inhibited formation of sclerotia, threonine uptake and activity of III. Acetyl-CoA inhibited V and L-cysteine inhibited I as well as sclerotium formation and branching. It is suggested that hyphal morphogenesis and formation of sclerotia in S. rolfsii require an increased supply of carbohydrate intermediates and energy and that these are mainly supplied by the glyoxylate pathway.
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PMID:Metabolism of L-threonine and its relationship to sclerotium formation in Sclerotium rolfsii. 98 16

Carbon-14 was incorporated into oxalate and CO2 from either citrate-1,5-14C, succinate-1,4-14C, or fumarate-1,4-14C by cultures of Aspergillus niger pregrown on a medium which contained glucose as the sole carbon source and which did not allow citrate accumulation. In cell-free extracts of mycelium forming oxalate and CO2 from added citrate the following enzymes of the tricarboxylic acid (TCA) cycle were identified: citrate synthase CE 4.1.3.7), aconitate hydratase (EC4.2.1.3), NAD and NADP-dependent isocitrate dehydrogenase (EC 1.1.1.41, 1.1.1.42), (alpha-oxoglutarate dehydrogenase (EC 1.2.4.2), succinate dehydrogenase (EC 1.3.99.1), fumarate hydratase (EC 4.2.1.2), and malate dehydrogenase (EC 1.1.1.37). The in vitro activity of aconitate hydratase and of NADP-dependent isocitrate dehydrogenase was shown to be almost identical to the rate of in vivo degradation of citrate or to exceed this rate. The degradation of citrate to oxalate was inhibited completely by 9 mM fluoroacetate. It is concluded that the TCA cycle is involved in the formation of oxalate from citrate.
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PMID:Oxalate accumulation from citrate by Aspergillus niger. II. Involvement of the tricarboxylic acid cyclase. 115

Reaction rates of succinate and lactate dehydrogenase activity in cryostat sections of rat liver, tracheal epithelium and heart muscle were monitored by continuous measurement of formazan formation by cytophotometry at room temperature. Incubation media contained polyvinyl alcohol as tissue protectant and Tetranitro BT as final electron acceptor. Control media lacked either substrate or substrate and coenzyme. Controls were also performed by adding malonate (a competitive inhibitor of succinate dehydrogenase), pyruvate (a non-competitive inhibitor of lactate dehydrogenase), oxalate (a competitive inhibitor of lactate dehydrogenase) or N-ethylmaleimide (a blocker of SH groups). A specific malonate-sensitive linear test minus control response for succinate dehydrogenase activity was obtained in liver (1.6 mumol H2cm-3 min-1) and tracheal epithelium (0.8 mumol H2cm-3 min-1) but not in heart muscle. All variations in the incubation conditions tested did not result in a linear test minus control response in the latter tissue. Because the reaction was sensitive to malonate, it was concluded that the initial reaction rate was the specific rate of succinate dehydrogenase activity in heart muscle (9.1 mumol H2 cm-3 min-1). Test minus control reactions for lactate dehydrogenase activity were distinctly non-linear for all tissues tested. This appeared to be due to product inhibition by pyruvate generated during the reaction and therefore it was concluded that the appropriate control reaction was the test reaction in the presence of 20 mM pyruvate. The initial rate of the test minus this control was the true rate of lactate dehydrogenase activity. The lactate dehydrogenase activity thus found in liver parenchyma was 5.0 mumol of H2 generated per cm3 liver tissue per min.
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PMID:Cytophotometric analysis of reaction rates of succinate and lactate dehydrogenase activity in rat liver, heart muscle and tracheal epithelium. 259 51

The present study was designed to determine whether naftidrofuryl oxalate (Naftidrofuryl) may exert a beneficial effect on the cerebral mitochondria after microsphere-induced embolism assessed under in vitro conditions. For this purpose, 600 microspheres (48 microns in diameter) were injected into the right carotid canal of rats, which induced an irreversible embolism in the right cerebrum. Three days after the operation, the cerebral mitochondria were isolated and their oxidative phosphorylation ability and succinate dehydrogenase activity were determined. Two types of mitochondria were obtained after cerebral embolism: one was mitochondria which revealed a marked decline in the oxidative phosphorylation activity when measured in the presence of glutamate or succinate as a substrate (severely injured mitochondria), and the other, those which revealed a decrease in the activity in the presence of succinate and an appreciable increase in the activity in the presence of glutamate (mildly injured mitochondria). Naftidrofuryl at the concentration of 3 microM elicited slight but significant restoration of the oxidative phosphorylation ability of the mildly injured mitochondria isolated from rats after the cerebral embolism, but not of the severely injured mitochondria. The succinate dehydrogenase activity of the brain mitochondria isolated from rats 3 days after the cerebral embolism was significantly decreased. Exposure of these mitochondria to 0.1 to 1 microM Naftidrofuryl significantly restored the succinate dehydrogenase activity. The results suggest that Naftidrofuryl is capable of exerting a beneficial effect in vitro on the brain mitochondria activity impaired by the cerebral embolism, particularly on the activity of mildly injured mitochondria.
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PMID:In vitro effect of naftidrofuryl oxalate on cerebral mitochondria impaired by microsphere-induced embolism in rats. 270 71

1. The present study was designed to determine whether naftidrofuryl oxalate exerts a possible therapeutic effect on brain energy metabolism impaired by microsphere-induced cerebral embolism in vitro. 2. Injection of microspheres into the right carotid canal resulted in a decrease in tissue high-energy phosphates both in the right and left hemispheres, and an increase in tissue lactate in the right hemisphere, on the 3rd and the 5th day after the embolism. The embolism also induced a marked reduction in mitochondrial oxidative phosphorylation ability and succinate dehydrogenase activity. The results suggest that severe ischaemia was induced in the brain by the microsphere administration. 3. Treatment of microsphere-injected rats with naftidrofuryl oxalate (15 mg kg-1) for 3 or 5 days elicited a significant recovery of tissue high-energy phosphate and lactate levels. The recovery was associated with a significant restoration of mitochondrial succinate dehydrogenase activity on the both days and of mitochondrial oxidative phosphorylation rate on the 5th day. 4. The results suggest that naftidrofuryl oxalate is beneficial in the recovery of cerebral energy metabolism impaired by microsphere-induced cerebral ischaemia, presumably through a mechanism involving its direct effect on the cerebral mitochondrial enzyme activities.
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PMID:Possible therapeutic effect of naftidrofuryl oxalate on brain energy metabolism after microsphere-induced cerebral embolism. 281 26

We investigated the role of thyroid hormone in the postnatal development of Ca2+ transport activity of sarcoplasmic reticulum in skeletal muscle (m. gastrocnemius-plantaris). With a Ca2+-stat method using the fluorescent dye fura 2 as Ca2+ indicator, we determined the oxalate-supported maximal Ca2+ uptake activity of sarcoplasmic reticulum in whole muscle homogenates from neonatal rats. Expressed per g tissue wet wt, the activity increased nearly 10-fold during the first 8 weeks after birth, following which time a plateau was reached. This development was absent in hypothyroid pups, in which the level of Ca2+ uptake activity remained constant at 10% of the normal adult value for at least 8 weeks. When the mothers were given 0.05% propylthiouracil in the drinking water 1 week before parturition, these pups ceased to grow after 4 weeks, had a reduced muscle protein content and a characteristic cretinous appearance. The effects of hypothyroidism could be reversed by T3 treatment (0.5 micrograms/100 g BW, daily) starting 1 or 6 weeks after birth. Treatment with bovine GH (0.1 or 0.5 IU/100 g BW; daily) starting on day 5 stimulated body growth, particularly of muscle, but was without effect on the failing development of Ca2+ uptake activity. The postnatal rise in citrate synthase and succinate dehydrogenase activities was impaired in the hypothyroid group, but lactate dehydrogenase and creatine kinase activities rose continuously, although at a reduced rate. T3 treatment also reversed these effects of propylthiouracil. At the higher dosage used bovine GH appeared to stimulate the accumulation of creatine kinase. We conclude that the failing postnatal development of sarcoplasmic reticulum Ca2+ transport activity in hypothyroidism is not secondary to the absence of GH, nor is it part of a general, indiscriminate effect, but, rather, that it indicates an absolute requirement of thyroid hormone for this particular aspect of muscle differentiation.
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PMID:The postnatal development of sarcoplasmic reticulum Ca2+ transport activity in skeletal muscle of the rat is critically dependent on thyroid hormone. 291 9

We describe a procedure for obtaining a highly enriched plasma membrane (sarcolemmal) preparation from muscle fibers of the giant barnacle (Balanus nubilus). The sarcolemmal-enriched portion migrated as a light fraction (F1) at the 10-24% sucrose interface. This fraction displayed saturable ouabain binding (Kd = 0.119 microM) that was enriched 10 times compared to that in the original homogenate. F1 was also prepared using muscle fibers previously labeled with 1,2-ditritio-1,2(2,2'-disulfo-4,4'-diisothiocyano)diphenylet hane, disodium salt [( 3H]-H2DIDS). F1 was enriched 25-fold in [3H]H2DIDS binding sites with respect to the homogenate. Ca2+-ATPase and succinic dehydrogenase-activities were low in F1, as was oxalate-supported Ca2+ uptake. Compared to membranes of sarcoplasmic reticulum origin, F1 was enriched in sarcolemma membranes by about 45-fold while it was enriched approximately 30-fold over mitochondrial membranes. Thus, F1 provides an extremely pure source of external muscle membranes.
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PMID:A plasma membrane-enriched preparation from giant barnacle muscle fibers. 297 59

We have purified unadhered human monocytes in sufficient quantities to prepare monocyte plasma membrane vesicles and study vesicular calcium transport. Monocytes were isolated from plateletpheresis residues by counterflow centrifugal elutriation. By combining this source and procedure, 7 x 10(8) monocytes of over 90% purity were obtained. The membranes, isolated on a sucrose step gradient, had an 18-fold enrichment in Na,K-ATPase, a 29-fold diminution of succinate dehydrogenase activity and were vesicular on transmission electron micrographs. The membrane vesicles loaded with oxalate accumulated calcium only in the presence of Mg and ATP. Calcium uptake did not occur if ATP was replaced by any of five nucleotide phosphates or if Mg was omitted. Calcium transport had a maximal velocity of 4 pmoles calcium/micrograms vesicle protein/min and a Km for calcium of 0.53 microM. The ionophore A23187 completely inhibited calcium accumulation while 5 mM sodium cyanide and 10 microM ouabain had no effect. A calcium-activated ATPase was present in the same plasma membrane vesicles. The calcium ATPase had a maximal velocity of 18.0 pmoles calcium/micrograms vesicle protein/min and a Km for calcium of 0.60 microM. Calcium-activated ATPase activity was absent if Mg was omitted or if (gamma - 32P) GTP replaced (gamma - 32P) ATP. Monocyte plasma membranes that were stripped of endogenous calmodulin by EGTA treatment showed a reduced level of calcium uptake and calcium ATPase activity. The addition of exogenous calmodulin restored the transport activity to that of unstripped monocyte plasma membranes. Thus, monocyte plasma membrane vesicles contain a highly specific, ATP-dependent calcium transport system and a calcium-ATPase with similar high calcium affinities.
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PMID:Plasma membrane vesicles prepared from unadhered monocytes: characterization of calcium transport and the calcium ATPase. 621 42

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