Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026850 (muscular dystrophy)
 5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is shown that E-hypovitaminosis-induced muscular dystrophy in rabbits is accompanied by a sharp decrease in the body mass, an increase in the urine creatine-index, a decrease in the vitamin E and ubiquinone contents in the liver and skeletal muscle tissues. In the myocardium mitochondria a decrease in the vitamin E content and an increase in the ubiquinone content are observed. The activity of NADH-cytochrome c-, NADH-ubiquinone- and succinate-ubiquinone-reductase also varies in mitochondria of the studied tissues. In myocardium organellas a direct dependence is found between the content of ubiquinone, NADH- and succinate-ubiquinone-reductase activity and an inverse one-between its content and the activity of the NADH-cytochrome c-reductase system. It is established that p-oxybenzoic acid as well as vitamin E prevents development of muscular dystrophy and causes changes analogous in direction in the activity of the ubiquinone-dependent enzymic systems of mitochondria. Ubiquinone-9 is less efficient in preventing the development of muscular dystrophy.
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PMID:[Efficiency of ubiquinone and p-oxybenzoic acid in prevention of E-hypovitaminosis-induced development of muscular dystrophy]. 729 23

Mitochondria, the main source of energy for eukaryotic cells through oxidative phosphorylation, also play a key role in the pathways to cell death. The mode of cell death may be influenced by the availability of ATP, and its very occurrence may critically depend on release of mitochondrial proteins like cytochrome c, apoptosis-inducing factor and possibly caspases 3 and 9. Ca2+-dependent onset of the permeability transition, caused by opening of a cyclosporin A-sensitive pore modulated by cyclophilin D, may play a major role in cell death through ATP depletion, disruption of Ca2+ homeostasis, and release of specific mitochondrial proteins. Dysregulation of Ca2+ homeostasis, proteolysis and a decreased ability to cope with oxidative stress are involved in the pathogenesis of Duchenne's muscular dystrophy downstream of the genetic lesion, and mitochondria appear as likely targets that may amplify the initial insult resulting in the irreversible events leading to cell demise. My colleagues and I are studying the permeability transition in skeletal muscle mitochondria, and we are validating bupivacaine in a short-term model of muscle cell toxicity involving mitochondrial depolarization and pore opening as early events. Specific goals for the future are to further define the role of mitochondria in muscle cell death, with particular emphasis on the role of the permeability transition pore and cyclophilin D, and to develop and test drugs able to affect its course in model systems in vitro and in the mdx mouse, an animal model of Duchenne's muscular dystrophy.
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PMID:Mitochondria in muscle cell death. 1093 59

ATP signaling has been shown to regulate gene expression in skeletal muscle and to be altered in models of muscular dystrophy. We have previously shown that in normal muscle fibers, ATP released through Pannexin1 (Panx1) channels after electrical stimulation plays a role in activating some signaling pathways related to gene expression. We searched for a possible role of ATP signaling in the dystrophy phenotype. We used muscle fibers from flexor digitorum brevis isolated from normal and mdx mice. We demonstrated that low frequency electrical stimulation has an anti-apoptotic effect in normal muscle fibers repressing the expression of Bax, Bim and PUMA. Addition of exogenous ATP to the medium has a similar effect. In dystrophic fibers, the basal levels of extracellular ATP were higher compared to normal fibers, but unlike control fibers, they do not present any ATP release after low frequency electrical stimulation, suggesting an uncoupling between electrical stimulation and ATP release in this condition. Elevated levels of Panx1 and decreased levels of Cav1.1 (dihydropyridine receptors) were found in triads fractions prepared from mdx muscles. Moreover, decreased immunoprecipitation of Cav1.1 and Panx1, suggest uncoupling of the signaling machinery. Importantly, in dystrophic fibers, exogenous ATP was pro-apoptotic, inducing the transcription of Bax, Bim and PUMA and increasing the levels of activated Bax and cytosolic cytochrome c. These evidence points to an involvement of the ATP pathway in the activation of mechanisms related with cell death in muscular dystrophy, opening new perspectives towards possible targets for pharmacological therapies.
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PMID:Electrical stimuli are anti-apoptotic in skeletal muscle via extracellular ATP. Alteration of this signal in Mdx mice is a likely cause of dystrophy. 2428 97