EC:1.3.5.1 - FACTA Search

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)

Two unrelated adult males, aged 36 (patient 1) and 25 (patient 2) years, presented with subacute carnitine-deficient lipid storage myopathy that was totally and partly responsive to riboflavin supplementation in the two patients, respectively. Plasma acyl-carnitine and urinary organic acid profiles indicated multiple acyl coenzyme A dehydrogenase deficiency, which was mild in patient 1 and severe in patient 2. The activities of short-chain and medium-chain acyl coenzyme A dehydrogenases in mitochondrial fractions were decreased, especially in patient 2. This was in agreement with Western blotting results. Flavin-dependent complexes I and II were studied by immunoblotting and densitometric quantification of two-dimensional electrophoresis with comparable results. Complex I was present in normal amounts in both patients, whereas complex II was decreased only in the pretherapy muscle of patient 2. Flavin adenine dinucleotide (FAD) and flavin mononucleotide (FMN) concentrations in muscle and isolated mitochondria, and the activity of mitochondrial FAD pyrophosphatase, showed that patient 1 had low levels of FAD (46%) and FMN (49%) in mitochondria, with a significant increase (P < 0.01) in mitochondrial FAD pyrophosphatase (273%) compared with controls. Patient 2 had similar low levels of FAD and FMN in both total muscle (FAD and FMN 22% of controls) and mitochondria (FAD 26%; FMN 16%) and normal activity of mitochondrial FAD pyrophosphatase. All of these biochemical parameters were either totally or partly corrected after riboflavin therapy.
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PMID:Riboflavin therapy. Biochemical heterogeneity in two adult lipid storage myopathies. 1058 Dec 32

Cytophotometrical measurements of enzyme activities were performed in the myocardium and skeletal muscle fibres from normal and cardiomyopathic hamsters (BIO 8262) during ageing from 12-14 to 120-190 days. Myocardium as well as vastus lateralis muscles of cardiomyopathic hamsters showed changes in enzyme activities. The skeletal muscle fibres were typed into slow-oxidative, fast-oxidative glycolytic and fast-glycolytic to investigate fibre type-related changes in muscles of cardiomyopathic hamsters. The following myopathic changes were mainly found: Myofibrillic ATPase was depressed in the myocardium of both ventricles in all investigated age stages. The ATPase activity of the right ventricle was more decreased than that of the left one. Additionally, a metabolic shift was observed in myocardium and slow-oxidative muscle fibres at the onset of clinical symptoms, which appeared from day 150 to day 190. During the period from 42 up to 190 days of life an increase of oxidative (succinate dehydrogenase) activity was measured in the myocardium of both ventricles and in slow oxidative fibres of vastus lateralis muscle as a proximal muscle. At earlier ages, the fast fibres of myopathic vastus lateralis muscle showed higher glycolytic (glycerol-3-phosphate dehydrogenase) activity than those of normal muscles. However, at the age of 120-190 days the metabolic profile of fast fibres was normalized. In gastrocnemius muscle as a distal muscle no changes of enzyme activities were measured, suggesting the investigated hereditary myopathy effected proximal, but not distal muscles.
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PMID:Changes of enzyme activities in the myocardium and skeletal muscle fibres of cardiomyopathic hamsters. A cytophotometrical study. 1096 83

Genetic defects affecting the mitochondrial respiratory chain are an important cause of neurological disease. Previously, we identified a family with complex II deficiency and late-onset neurodegenerative disease with progressive optic atrophy, ataxia, and myopathy. The affected family members are now shown to carry a C-to-T transition in one allele of the nuclear gene encoding the flavoprotein subunit of complex II. Mutation of the equivalent base in Escherichia coli generates an inactive enzyme unable to bind flavin adenine dinucleotide covalently. Compatible with these findings, our patients have an approximate 50% decrease in complex II and succinate dehydrogenase activity. These results suggest that genetic defects of nuclear-encoded subunits of the mitochondrial respiratory chain can result in late-onset neurodegenerative disease.
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PMID:Late-onset optic atrophy, ataxia, and myopathy associated with a mutation of a complex II gene. 1097 39

We report a 42-year-old male suffering from congenital nemaline myopathy accompanied with mitochondrial abnormalities in his muscle biopsy. He had a dysmorphic face with a high-arched and narrow palate and slowly progressive generalized muscle weakness. He was still able to walk with a cane. CT showed symmetrical muscle atrophy and low densities in the thigh muscles, especially in the posterior compartment, and in the soleus muscles. Preferential posterior thigh involvement was unusual in congenital nemaline myopathy. The lumbar quadrate and paravertebral muscles were relatively well preserved; these muscles were reported to be severely involved in adult-onset nemaline myopathy patients. Muscle biopsy findings were consistent with nemaline myopathy; nemaline rods in approximately 10% of fibers, type 1 fiber atrophy, and type 2B fiber deficiency. In addition, ragged-red fibers were scattered and focal cytochrome c oxidase (CCO) deficiency was present. Formazan granules were large on succinate dehydrogenase stain. Many fibers with nemaline rods showed focal CCO deficiency. On electron microscopy, large (megaconial) mitochondria were lined regularly between Z lines. PCR and Southern blot analysis of muscle mitochondrial DNA revealed multiple deletions. It remains to be clarified whether mitochondrial abnormalities are primarily related to nemaline myopathy or secondarily induced phenomenon after a long-standing disease process.
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PMID:[Congenital nemaline myopathy with mitochondrial abnormalities. An adult case report]. 1100 27

In the last decade, mitochondrial diseases were shown not to be rare but to represent an important group of metabolic disorders. Defects are caused by mutations either located in nuclear genes or in mitochondrial genes. Nuclear gene defects are found in complex IV deficient and complex I deficient patients. Deficiencies of complex II are extremely rare. Different phenotypes are associated with complex IV deficiency, including a neonatal form, cardio-encephalomyopathy in young infants, Leigh syndrome, and pure myopathy. Mutations can be found in the complex IV assembly genes, such as the SURF-1 gene and the SCO2 gene. Different phenotypes are also found in complex I deficient patients and include a neonatal form, Leigh syndrome, pure myopathy, pure cardiomyopathy or multiple-system involvement. In some disorders, the mitochondrial DNA abnormalities are caused by a nuclear gene defect (Alpers-Huttenlocher syndrome, autosomal dominant multiple mitochondrial DNA deletion syndrome, and MNGIE syndrome). Since 1988, more then 70 different mutations were reported in the mitochondrial DNA. Some point mutations are associated with a specific phenotype, others have a wide range of clinical symptoms. We expect that many more mitochondrial DNA mutations will be identified in the future. The number of mutations in nuclear genes will also increase, especially since progress has been made in techniques used for identification of nuclear genes (microcell transfer).
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PMID:Mitochondrial cytopathies and neuromuscular disorders. 1109 88

This review presents our current knowledge on the genetic and phenotypic aspects of mitochondrial complex II gene defects. The mutations of the complex II subunits cause two strikingly different group of disorders, revealing a phenotypic dichotomy. Genetic disorders of the mitochondrial respiratory chain are often characterized by hypotonia, growth retardation, cardiomyopathy, myopathy, neuropathy, organ failure, and metabolic derangement. These disorders are transmitted through maternal lineage if the defective gene is located in the mitochondrial genome or may follow a Mendelian pattern if it is in the nucleus. Mitochondrial complex II (succinate:ubiquinone oxidoreductase) is the smallest complex in the respiratory chain and is composed of four subunits encoded by nuclear genes SDHA, SDHB, SDHC, and SDHD. Complex II oxidizes succinate to fumarate in the Krebs cycle and is involved in the mitochondrial electron transport chain. SDHA and SDHB encode the flavoprotein and iron-sulfur proteins, respectively, and SDHC and SDHD encode the two hydrophobic membrane-spanning subunits. While mutations in SDHA display a phenotype resembling other mitochondrial and Krebs cycle gene defects, those in SDHB, SDHC and SDHD cause hereditary paraganglioma. Paraganglioma is characterized by slow-growing vascular tumors of the paraganglionic tissue (i.e., adrenal and extra-adrenal paragangliomas, including those in the head and neck, mediastinum, abdomen, and pheochromocytomas). Paraganglioma caused by SDHD mutations occurs exclusively after paternal transmission, suggesting that genomic imprinting influences gene expression. Association of a mitochondrial gene defect with tumorigenesis expands the phenotypic spectrum of mitochondrial diseases and adds genomic imprinting as a new transmission mode in mitochondrial genetics. The phenotypic features of complex II gene mutations suggest that whereas the catalytic subunit SDHA mutations may compromise the Krebs cycle, those in other structural subunits may affect oxygen sensing and signaling.
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PMID:Phenotypic dichotomy in mitochondrial complex II genetic disorders. 1169 62

The eye changes associated with Graves' hyperthyroidism can be classified into two subtypes, congestive ophthalmopathy (CO), in which inflammatory changes in the periorbital tissues predominate, and ocular myopathy (OM), in which eye muscle damage is the main feature. Antibodies against the flavoprotein (Fp) subunit of succinate dehydrogenase (SDH), the 64-kd protein, and G2s, a thyroid and eye muscle shared protein of unknown function, are good markers of eye muscle cell damage in patients with OM. Another antigen associated with ophthalmopathy is the flavine adenine nucleotide (FAD) cofactor of several mitochondrial enzymes, including SDH. We tested for serum antibodies against purified human recombinant Fp, FAD, and a G2s fusion protein, in patients with thyroid-associated ophthalmopathy (TAO) and control patients and subjects, in enzyme-linked immunosorbent assay. Antibodies against Fp were detected in 32% of patients with TAO, 30% with Graves' hyperthyroidism (GH), 16% with Hashimoto's thyroiditis (HT), in 14% of patients with multi-nodular goiter (MNG), and in 6% of normal subjects. Antibodies against FAD were found in 24%, 30%, 24%, and 14%, respectively, of these patients and in 12% of the normals, while antibodies against G2s were detected in 50% of patients with TAO, 40% with GH, 40% with HT, in 29% of patients with MNG, and in 7% of normals. We also tested for antibodies against SDH, FAD, and G2s in 12 patients with GH who developed CO (6 patients) or OM (6 patients) after treatment with antithyroid drugs. Of the 6 patients who developed OM, antibodies against SDH preceded the onset of eye disease in 4 and coincided with it in 2, antibodies against G2s preceded eye muscle disease in 5 and coincided with it in 1 patient while antibodies against FAD preceded the development of OM in 5 patients. Of the 6 patients who developed CO, antibodies against SDH were detected in only one patient and borderline levels were demonstrated in 1, while anti-FAD and anti-G2s each preceded the onset of eye signs in 6 patients. Positive sera from another group of patients with TAO, and a second group of normal subjects, were tested at increasing serum dilutions. Sera from the two groups showed similar dilution patterns, except for a few patients with TAO in whom increasing dilutions was associated with increased, then decreased, antibody levels. In this experiment the prevalences of the two antibodies were much greater in patients with TAO namely, 67% for anti-Fp and 89% for anti-G2s, while the prevalences in the normals were 11% and 22%, respectively. The reason for this apparent discrepancy is not clear but may reflect subject and assay differences. Because Fp is found within the mitochondrial membrane it is likely that the corresponding antibodies are produced after eye muscle necrosis, and do not play a role in its pathogenesis. The primary reaction in the eye muscle may be T-cell autoimmunity against G2s, although this has not been proven. The mechanism for the production of antibodies against G2s, FAD, and Fp in subjects who do not have ophthalmopathy is unclear. The significance of such antibodies in control subjects is presently being addressed in our laboratory.
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PMID:Eye muscle antibodies and subtype of thyroid-associated ophthalmopathy. 1195 37

Proximal (vastus lateralis) and distal (gastrocnemius) muscles of 100-day-old normal and myopathic BIO TO-2 hamsters were analysed to study the effects of myopathy on the different muscle fibre types: SO (slow oxidative), FOG (fast oxidative glycolytic) and FG (fast glycolytic). Cytophotometric measurements of enzyme activities (myofibrillic adenosine triphosphatase, succinate dehydrogenase and glycerol-3-phosphate dehydrogenase), Western blot analysis of nitric oxide synthase (NOS) I, II, III isoforms and NOS II immunohistochemistry were performed. The following alterations were found in myopathic muscle fibres: all fibre types of both proximal and distal myopathic muscles showed decreased myofibrillic adenosine triphosphatase activity indicating depressed contractility. This was associated with depressed oxidative activity of the muscle fibres. A shift to more glycolytic metabolism was observed, mainly in FG fibres of proximal muscle. We found an increased NOS II expression in both myopathic muscle types investigated. It means that increased NO production inhibits force generation in myopathic muscle. NOS II immunoreactivity was found mainly in the cytoplasm of FG fibres. NOS I and NOS III expression was not significantly effected by this form of myopathy. Our findings demonstrate that muscle fibres of proximal and distal skeletal muscles of 100-day-old cardiomyopathic BIO TO-2 hamsters are altered with respect to contractility, metabolism and NOS II expression. FG fibres of the proximal muscle were effected most strongly.
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PMID:Myopathy-dependent changes in activity of ATPase, SDH and GPDH and NOS expression in the different fibre types of hamster muscles. 1199 46

'Myofibrillar myopathy' defines a myopathic condition with focal myofibrillar destruction and accumulation of degraded myofibrillar elements. Despite the fact that a number of mutations in different genes as well as cytotoxic agents lead to the disease, abnormal accumulation of desmin is a typical, common feature. Pathological changes of mitochondrial morphology and function have been observed in animal models with intermediate filament pathology. Therefore, in the present study we tested for mitochondrial pathology in skeletal muscle of five patients with the pathohistological diagnosis of myofibrillar myopathy. Screening for large-scale mtDNA deletions and the frequent MERRF (myoclonic epilepsy; ragged red fibres) and MELAS (mitochondrial encephalomyopathy; lactic acidosis; stroke) point mutations was negative in all patients. Histologically, all muscle biopsies showed nonspecific abnormalities of the oxidative/mitochondrial enzyme stainings (histochemistry for reduced nicotinamide adenine dinucleotide, succinic dehydrogenase, cytochrome c oxidase), only one of them had ragged red fibres and a significant number of cytochrome c oxidase-negative fibres. Upon biochemical investigation, four of our patients showed pathologically low respiratory chain complex I activities. Only one of our patients had a pathologically low complex IV activity, while the measurements of the others were within low normal range. The single patient with pathological values for both complex I and IV was the one with the clear histological hallmarks (ragged red and cytochrome c oxidase-negative fibres) of mitochondrial pathology. She also was the only patient with clinical signs hinting at a mitochondrial disorder. Together with data from observations in desmin- and plectin-deficient mice, our results support the view that desmin intermediate filament pathology in these cases is closely linked to mitochondrial dysfunction in skeletal muscle.
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PMID:Mitochondrial dysfunction in myofibrillar myopathy. 1258 39

Formoterol, a selective beta 2-adrenoceptor agonist, has been introduced recently in the treatment of poorly controlled asthma. A patient is presented who developed myalgia and muscle weakness, associated with an elevation of creatine kinase (CK) during treatment with formoterol. Subsequent muscle biopsy demonstrated atrophic fibres lacking cytochrome C-oxidase and succinate dehydrogenase, suggestive of mitochondrial dysfunction. There were no inflammatory changes. Immunocytochemical analysis using antibodies to alpha-actinin-2 and alpha-actinin-3 demonstrated positive staining of 'rod-like' bodies in atrophic fibres. Clinical and biochemical improvement occurred following withdrawal of formoterol. Possible mechanisms involved in the development of myopathy are explored.
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PMID:Mitochondrial dysfunction and rod-like lesions associated with administration of beta2 adrenoceptor agonist formoterol. 1514 39

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