Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 attempt has been made to quantify myocardial lesions produced in the rat by isoprenaline for use as a model to assess possible incremental effects of environmental and dietary factors. This was initially made difficult by variation in the cardiotoxicity of different samples of isoprenaline. Investigation of these samples failed to reveal the basis for the differences. Active preparations have, however, produced profound changes both clinically and pathologically. The earliest light-microscopic changes both clinically and pathologically. The earliest light-microscopic change was loss of fuchsinophilia of fibres in sections stained by the picro-Mallory technique. By 24 hr obvious necrosis, fragmentation and lysis of the fibres had occurred. Treatment of frozen sections to demonstrate succinate dehydrogenase showed early changes in the character of formazan, suggesting the possibility of a transient alteration in the hydrogen transport system. By 48 hr, this is reversed except in those fibres undergoing necrosis where there is a complete loss of formazan. This contrast in staining between normal and necrotic fibres constitutes the basis for quantification which has been carried out by point counting. The results show some differences in the amount of myocardial necrosis between different batches of animals but relatively small differences within individual batches, suggesting that the introduction of additional variants into the system should be capable of producing clear cut results.
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PMID:Exeriences with isoprenaline induced myocardial necrosis in the rat. 6 47

Transverse cryostat sections of skeletal muscle were fixed in a solution containing 1.5% glutaraldehyde and 1.5% sulfosalicylic acid and stained in a solution containing equal volumes of 3% hydrogen peroxide and 50% ethanol saturated with o-tolidine. Myoglobin in the sarcoplasm of muscle fibers was precipitated and stained blue. Applicability of this method to cryostat sections, without glutaraldehyde fixations prior to freezing, allowed the myoglobin content of individual muscle fibers to be correlated with other histochemical characteristics of the same fibers seen in serial sections. In the dark red bovine sternomandibularis muscle, fibers with weak adenosine triphosphatase (ATPase) and strong succinate dehydrogenase (SDH) activity always exhibited strong myoglobin staining. An equal degree of staining was found in many fibers with strong ATPase and intermediate to strong SDH activity. Fibers with strong ATPase and weak SDH activity were less strongly stained than the preceding types.
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PMID:A method for myoglobin in cryostat sections of muscle by precipitation with sulfosalicylic acid. 9 25

E.p.r. (electron-paramagnetic-resonance) spectra of ubisemiquinone (QH) organic radicals and all of the known iron-sulphur centres were studied in normal and 'nickle-plated' pigeon heart mitochondria, submitochondrial particles and submitochondrial particles from which succinate dehydrogenase had been removed. Incubation of pigeon heart mitochondria, submitochondrial particles or succinate dehydrogenase-depleted submitochondrial particles with substrate in the presence of pure O2 results in the accumulation of Q-H. In mitochondria, the e.p.r. spectrum of Q-H is characterized by in-homogeneous line broadening. A heterogeneous population of semiquinones appears to be partly responsible for these effects in mitochondria. Additon of Ni(II) to mitochondria renders saturation of the Q-H resonance more difficult. On the other hand, the resonance in either submitochondrial particles or succinate dehydrogenase-depleted particles is narrower than the same spectrum in mitochondria, and saturates like a homogeneous line. The presence of Ni(II) in either of these preparations, further, has no effect on either the A-H spectrum or the saturation curve. Therefore QH appears to be situated on the exterior surface of the mitochondrion. Likewise, the e.p.r. spectra and saturation curves of iron-sulphur centre N-2 exhibit characteristics of inhomogeneous line broadening, not only in intact mitochondria but also in both submitochondrial particles and succinate dehydrogenase-depleted particles. Because of the small pool size of centre N-2, this effect is likely to arise from a spin interaction with some other component in the membrane. Ni(II) has no effect on the saturation in centre N-2 in mitochondria or submitochondrial particles, and only a marginal effect in the succinate dehydrogenase-depleted preparation. These results are indeterminate with respect to the position of centre N-2 in the membrane; but suggest that its distance from the succinate dehydrogenase binding site is on the order of 1 nm. All of the other ferredoxin-type iron-sulphur centres in both preparations were not affected by paramagnetic ions. Homogeneous e.p.r. spectra and saturation curves are observed for both of the HiPIP-type (high-potential iron-sulphur protein-type) iron-sulphur centres in mitochondrial centres S-3 and bc-3. Addition of No(II) to intact mitochondria results in a dipolar interaction with centre bc-3. No effect was observed on centre S-3 in either preparation. A comprehensive model is presented for the structure of the respiratory electron-transport system in mitochondria, based on e.p.r. relaxation studies in the present and the preceding paper. There is no direct evidence for transmembrane electron flow through any of the known energy-coupling sites in mitochondria, so that direct hydrogen atom transfer across the membrane (as a combination of H+ translocation coupled to electron flow) does not occur...
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PMID:Intramitochondrial positions of ubiquinone and iron-sulphur centres determined by dipolar interactions with paramagnetic ions. 18 59

2-Methylfumarate can be hydrogenated by resting cells of Proteus mirabilis under an atmosphere of hydrogen gas. Optically pure (S)2-methylsuccinate is formed in a yield greater than 95%. The hydrogen addition, presumably catalyzed by the fumarate reductase, occurs in a trans fashion, as with succinate dehydrogenase of mammalian systems. Only one reactive enzyme-substrate complex with 2-methylfumarate seems to be possible.
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PMID:Preparation of (S)2-methylsuccinate and (2S,3S) [2,3-2H]2-methylsuccinate by biohydrogenation of 2-methylfumarate. 33 9

The initial reaction kinetics of succinate dehydrogenase in situ were investigated in sections of mouse unfixed liver using an ARGUS-100 image analyser system. The sections were incubated on substrate-containing agarose gel films. Images of a section, illuminated with monochromatic light (584 nm), were captured with the image analyser in real time at intervals of 10 s during the incubation. The absorbances of selected hepatocytes in the successive images were determined as a function of time. In every cell, the absorbance increased nonlinearly after the first minute of incubation. The initial velocity of the dehydrogenase was calculated from the linear activities during the first 20 s of incubation. Hanes plots of the initial velocities and succinate concentration yielded the following mean kinetic constants. For periportal hepatocytes, the apparent Km = 1.2 +/- 0.8 mM and Vmax = 29 +/- 2 mumol hydrogen equivalents formed/cm3 hepatocyte cytoplasm per min. For pericentral hepatocytes, Km = 1.4 +/- 1.0 mM and Vmax = 21 +/- 2 mumol hydrogen equivalents/cm3 per min. The Km values are very similar to those determined previously from biochemical assays. These results, and the observed dependence of the initial velocity on the enzyme concentration, suggest that the technique reported here is valid for the histochemical assay of succinate dehydrogenase.
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PMID:Initial reaction kinetics of succinate dehydrogenase in mouse liver studied with a real-time image analyser system. 142 17

Neutrophil myeloperoxidase, hydrogen peroxide, and chloride constitute a potent antimicrobial system with multiple effects on microbial cytoplasmic membranes. Among these is inhibition of succinate-dependent respiration mediated, principally, through inactivation of succinate dehydrogenase. Succinate-dependent respiration is inhibited at rates that correlate with loss of microbial viability, suggesting that loss of respiration might contribute to the microbicidal event. Because respiration in Escherichia coli can be mediated by dehydrogenases other than succinate dehydrogenase, the effects of the myeloperoxidase system on other membrane dehydrogenases were evaluated by histochemical activity stains of electrophoretically separated membrane proteins. Two bands of succinate dehydrogenase activity proved the most susceptible to inactivation with complete loss of staining activity within 20 min, under the conditions employed. A group with intermediate susceptibility, consisting of lactate, malate, glycerol-3-phosphate, and dihydroorotate dehydrogenases as well as three bands of glucose-6-phosphate dehydrogenase, was almost completely inactivated within 30 min. The relatively resistant group, including the dehydrogenases for glutamate, NADH, and NADPH and the remaining bands of glucose-6-phosphate dehydrogenase, retained substantial amounts of diaphorase activity for up to 60 min of incubation with the myeloperoxidase system. The differential effects of myeloperoxidase on dehydrogenase inactivation could not be correlated with published enzyme contents of flavin or iron-sulfur centers, potential targets of myeloperoxidase-derived oxidants. Despite the relative resistance of NADH dehydrogenase/diaphorase activity to myeloperoxidase-mediated inactivation, electron transport particles prepared from E. coli incubated for 20 min with the myeloperoxidase system lost 55% of their NADH oxidase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential inactivation of Escherichia coli membrane dehydrogenases by a myeloperoxidase-mediated antimicrobial system. 169 36

The activity of the mitochondrial glycerol phosphate dehydrogenase (EC 1.1.99.5), the enzyme unique to the glycerol phosphate hydrogen shuttle, was measured in normal human tissues and tumors and compared with the activity of succinate dehydrogenase, another enzyme that transfers electrons to ubiquinone at site II of the electron transport chain. Six of 7 insulinomas and 10 of 12 carcinoid tumors showed high glycerol phosphate dehydrogenase activity. The activity was also increased in 3 of 4 gastrinomas, 2 paraganglionomas, 1 of 4 thyroid nodules, and 1 parathyroid tumor. These tissues belong to the amine precursor uptake decarboxylation system. The activity of glycerol phosphate dehydrogenase was generally unremarkable in non-amine precursor uptake decarboxylation system tumors and in normal tissues studied. However, 1 of 2 breast carcinomas, 1 submandibular tumor, and 2 of 3 melanomas were enriched in glycerol phosphate dehydrogenase activity. In general, succinate dehydrogenase activity exceeded that of glycerol phosphate dehydrogenase in all tissues except some of the tissues in which glycerol phosphate dehydrogenase activity was high. Normal tissues, such as the pancreatic beta-cell, which aerobically metabolize glucose rapidly utilize the glycerol phosphate shuttle to oxidize the large amount of NADH formed from glucose metabolism in the cytosol. Whether this is the reason for the enriched activity of the glycerol phosphate dehydrogenase in certain amine precursor uptake decarboxylation system tumors is unknown.
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PMID:High activity of mitochondrial glycerol phosphate dehydrogenase in insulinomas and carcinoid and other tumors of the amine precursor uptake decarboxylation system. 197 16

In vitro thermosensitivity of various human tumors including 90 esophageal, 10 gastric and 40 colo-rectal cancers were evaluated using the succinate dehydrogenase inhibition (SDI) test. Tumor fragments minced with scissors were incubated at 43 degrees C as heat treated cells and at 37 degrees C as controls for 20 hrs, and assayed for the succinate dehydrogenase (SD) activity using 3-(4, 5-dimethyl-2-thiazolyl)-2, 5-diphenyl-2H tetrazolium bromide (MTT) as a hydrogen acceptor. The thermosensitivity was estimated by the percentage of SD activity of heat treated cells compared to that of each control. A variation in the thermosensitivity was noted between patients. The SD activity was 60.1 +/- 20.3% (mean +/- standard deviation) for esophageal cancers, 34.9 +/- 21.7% for gastric cancers, 50.3 +/- 20.6% for colo-rectal cancers. Significant differences were noted between esophageal cancers and gastric cancers, colo-rectal cancers (p less than 0.01 and p less than 0.05, respectively). When the thermosensitivity was arbitrarily defined as reduction in the SD activity to 50% of control or less, the positive rates were 31.1% for esophageal cancer, 70% for gastric cancer and 62.5% for colo-rectal cancer. Our results show that the SDI test is a useful method for determination of the thermosensitivity of clinical samples.
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PMID:[In vitro thermosensitivity of various human tumors evaluated using the SDI (succinate dehydrogenase inhibition) test]. 223 61

A component-spectroanalysis technique was used to study the multicolor properties of histochemically stained tissue sections. We developed a method that makes it possible to obtain separately both the spectral patterns and spatial distributions of different color components in tissue sections. To illustrate the application of this technique, we examined the extinction spectrum of reduced nitroblue tetrazolium (NBT), which is used for the detection of dehydrogenase activity. Upon the reduction of NBT, mono- and diformazans are formed, and these exhibit over-lapping extinction spectra. When succinate dehydrogenase (SDH) activity in rat liver lobules was examined using NBT, monoformazan was found to be present at higher concentrations than diformazan and to have a uniform distribution, whereas the concentration of diformazan increased with a steep gradient between the center and periphery of lobules. In rat skeletal muscle fibers, diformazan was present at higher concentrations than monoformazan. The level of SDH activity was topographically represented by the hydrogen concentration calculated from the concentrations of the two formazans. This method is effective for separating multiple components such as mono- and diformazans in histochemical reactions.
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PMID:Topographic estimations by component spectroanalysis of two formazans of nitroblue tetrazolium in tissue sections. 361 Jun 71

In vitro chemosensitivity was evaluated by SDI test in various human tumors including 1 lymph node metastasis of esophageal cancer, 10 gastric cancers, 4 colo-rectal cancers, 1 hepatoma, 2 lung cancers, 2 breast cancers and 1 gallbladder cancer. Tumor fragments cut with scissors were exposed to twelve kinds of antitumor drugs at five to ten times peak plasma concentration. After 3 days at 37 degrees C, each tumor fragment suspension was washed with phosphate-buffered saline and assayed for succinate dehydrogenase (SD) activity using 3-(4,5- dimethyl-2-thiazolyl)-2, 5-diphenyl-2H tetrazolium bromide (MTT) as a hydrogen acceptor. When the SD activity of the drug-treated cells was reduced to below 50% that of control cells, the chemosensitivity to the antitumor drug was considered positive. The chemosensitivity of each tumor varied individually. Mitomycin C or 5-fluorouracil are regularly used to treat gastric cancer patients, but, some specimens of gastric cancer in this study showed a resistance to these drugs and an unexpected sensitivity to other drugs. Our results show that the SDI test is a convenient method for clinical use and gives significant information about drug sensitivity.
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PMID:[In vitro chemosensitivity of various human tumors evaluated by the SDI (succinate dehydrogenase inhibition) test]. 405 18


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