Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.3.5.1 (succinate dehydrogenase)
 8,177 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Skeletal muscle specimens from three patients with inclusion body myositis, aged 39, 60 and 71 years, respectively, were investigated. Enzyme histochemical staining of cytochrome c oxidase (COX), succinate dehydrogenase and myofibrillar ATPase, and in situ hybridization of transcripts of mitochondrial DNA (mtDNA) were performed on consecutive sections. In all three cases a proportion of muscle fibres (2-5%) showed low or absent COX activity in spite of medium or high succinate dehydrogenase activity (COX deficient muscle fibres). Two probes detecting transcripts of different segments of mtDNA were used for the in situ hybridization. One of the probes (ND4 probe) detected transcripts of a segment of the NADH dehydrogenase subunit 4 gene, which is known to be affected in most cases of mitochondrial myopathy with large deletions of mtDNA. There was reduced hybridization of the ND4 probe in many COX deficient muscle fibres compared with adjacent normal fibres. The other probe (ND2 probe) detected transcripts of a segment of the NADH dehydrogenase subunit 2 gene, which usually is not included in mtDNA deletions. There was accumulation of transcripts corresponding to the ND2 probe in COX deficient fibres in all three cases. These findings demonstrate that deleted mtDNA had accumulated in COX deficient muscle fibres in patients with inclusion body myositis. Southern blot analysis of mtDNA in muscle revealed a 16.6 kb fragment corresponding to normal mtDNA in all three cases. In one case two additional less abundant fragments of smaller size, corresponding to deleted mtDNA, were detected. Ultrastructural investigation showed abnormal mitochondria in all three cases. Control muscle specimens were obtained from nine patients, aged 63-71 years, with muscle pain but without morphological evidence of muscle disease. Occasional COX deficient fibres (< 1%) were found in three of the control cases. The other six control cases showed no COX deficient fibres. Our results show that mtDNA deletions may be involved in the pathogenesis of inclusion body myositis and cause respiratory chain dysfunction in muscle fibre segments.
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PMID:Mitochondrial DNA deletions in inclusion body myositis. 838 16

This study investigated the genetic and enzymological features of Leigh syndrome due to respiratory chain complex deficiency in Chinese patients. The clinical features of 75 patients were recorded. Mitochondrial respiratory chain enzyme activities were determined via spectrophotometry. Mitochondrial gene sequence analysis was performed in 23 patients. Five core pedigrees were investigated via restriction fragment length polymorphism and gene sequencing. Psychomotor retardation (55%), motor regression (20%), weakness (29%), and epilepsy (25%) were the most frequent manifestations. Sixty-four patients (85.3%) had isolated respiratory complex deficiencies: complex I was seen in 28 patients (37.3%); complex II, seven (9.3%); complex III, six (8%); complex IV, ten (13.3%); and complex V, 13 patients (17.3%). Eleven patients (14.7%) had combined complex deficiencies. Mitochondrial DNA mutations were detected in 10 patients. Eight point mutations were found in mitochondrial structural genes: m.4833A>G in ND2, m.10191T>C in ND3, m.12338T>C and m.13513G>A in ND5, m.14502T>C and m.14487T>C in ND6, m.8108A>G in COXII, and m.8993T>G in ATPase6. Three mutations were found in tRNA genes: m.4395A>G in tRNA-Gln, m.10454T>C in tRNA-Arg, and m.5587T>C in tRNA-Ala. One patient and their mother both had the m.12338T>C and m.8993T>C mutations. In conclusion, mitochondrial respiratory chain complex I deficiency and structural gene mutations frequently occur in Chinese Leigh syndrome patients.
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PMID:Genetic and biochemical findings in Chinese children with Leigh syndrome. 2395 30