UMLS:C0026850 - FACTA Search

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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Developmental enzyme alterations were investigated in skeletal muscle of the hereditary progressive muscular dystrophy (PMD) mice of C57BL/6J strain. 2. Enzymes examined were classified into three groups according to changes of activities in dystrophy muscle during ageing. Activities of creatine kinase (EC 2.7.3.2), pyruvate kinase (EC 2.7.1.40), glycogen phosphorylase (EC 2.4.1.1), and fructose-biphosphate aldolase (EC 4.1.2.13), each of which had the respective muscle specific isoenzyme of extremely high activity in normal adult skeletal muscle, decreased rapidly in dystrophy muscle from the early stage of the disease with ageing. Activities of glycogen synthase (EC 2.4.1.11) and hexokinase (EC 2.7.1.1) were higher in dystrophy muscle in the early stage but decreased gradually to lower levels than those in the control with ageing. Activities of glucose-6-phosphate dehydrogenase (EC 1.1.1.49) were always much higher in dystrophy muscle than in the control, with no relation to ageing. 3. Isoenzymes of creatine kinase, pyruvate kinase and phosphorylase in dystrophy muscle were mainly the muscle types, indicating that muscle differentiation was not blocked profoundly even in dystrophy muscle. In limited cases, especially in the early stage of the disease, very weak activities of the non-muscle fetal type isoenzymes of creatine kinase and phosphorylase were detected, apparently associated with partial muscle regeneration in dystrophy muscle.
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PMID:Enzyme alteration in skeletal muscle of mice with muscular dystrophy. 41 23

Transferrin or a transferrin-like protein, with ability to stimulate myogenesis and terminal differentiation in vitro, is found in fast chicken muscle during embryonic development. After hatching, however, transferrin is no longer accumulated or is only weakly accumulated by fast muscles like the pectoralis major and the posterior latissimus dorsi but continues to be accumulated by slow muscles like the anterior latissimus dorsi. In congenic lines of chickens bearing the gene for muscular dystrophy, however, adult fast muscles do not lose the ability to accumulate transferrin. While transferrin is found selectively in adult normal and dystrophic muscle it does not appear to be synthesized by muscle cells. Immunocytochemical localization shows that transferrin is accumulated not so much by muscle fibers as it is by single cells in the muscle interstitial space. The relationship between transferrin presence and growth patterns in adult skeletal muscle is not currently understood but evidence suggests that transferrin stimulation of myogenesis observed in vitro may be mediated in vivo by non-muscle cells dwelling within the muscle interstitial space. These cells may act as transferrin-uptake sources for subsequent satellite cell stimulation.
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PMID:There is selective accumulation of a growth factor in chicken skeletal muscle. II. Transferrin accumulation in dystrophic fast muscle. 637 45

A number of recent reports suggest that intracellular calcium concentration is increased in skeletal muscle in duchenne muscular dystrophy (DMD). Leucocyte chemiluminescent responses are dependent on calcium ions and can be induced by the calcium ionophore A23187. Chemiluminescence may therefore reflect intracellular calcium levels. In order to determine whether non-muscle cells in DMD share the calcium abnormality, we have examined A23187-induced chemiluminescence in DMD leucocytes. Peak calcium dependent chemiluminescence occurred at 0.25-0.75 mM added calcium chloride. Peak chemiluminescent responses in the 13-paired samples were reduced in DMD leucocytes (P less than 0.01) using a paired t-test. These result suggest that there is an abnormality of calcium dependent A23187-induced chemiluminescence in DMD leucocytes and that there may be a generalised abnormality of calcium metabolism in DMD.
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PMID:Decreased A23187-induced chemiluminescence in Duchenne muscular dystrophy granulocytes. 681 7

The 50-kDa dystrophin-associated glycoprotein (50-DAG) is a component of the dystrophin-glycoprotein complex, which links the muscle cytoskeleton to the extracellular matrix. 50-DAG is specifically deficient in skeletal muscle of patients with severe childhood autosomal recessive muscular dystrophy and in skeletal and cardiac muscles of BIO 14.6 cardiomyopathic hamsters. The lack of 50-DAG leads to a disruption and dysfunction of the dystrophin-glycoprotein complex in these diseases. The cDNA encoding 50-DAG has now been cloned from rabbit skeletal muscle. The 50-DAG deduced amino acid sequence predicts a novel protein having 387 amino acids, a 17-amino acid signal sequence, one transmembrane domain, and two potential sites of N-linked glycosylation. Affinity-purified antibodies against rabbit 50-DAG fusion proteins or synthetic peptides specifically recognized a 50-kDa protein in skeletal muscle sarcolemma and the 50-kDa component of the dystrophin-glycoprotein complex. In contrast to dystroglycan, which is expressed in a wide variety of muscle and non-muscle tissues, 50-DAG is expressed only in skeletal and cardiac muscles and in selected smooth muscles. Finally, 50-DAG mRNA is present in mdx and Duchenne muscular dystrophy (DMD) muscle, indicating that the down-regulation of this protein in DMD and the mdx mouse is likely a post-translational event.
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PMID:Primary structure and muscle-specific expression of the 50-kDa dystrophin-associated glycoprotein (adhalin). 822

DNA analysis of peripheral blood leucocytes is routinely used to demonstrate mutations in the dystrophin gene in patients with Duchenne's muscular dystrophy. In approximately 35% of patients. DNA studies are not informative; in these patients immunochemical analysis of a muscle-biopsy specimen can determine whether dystrophin, the protein product of the gene for Duchenne's dystrophy, is absent. DNA analysis can be performed in amniocytes for the prenatal diagnosis; immunochemical testing for dystrophin cannot be performed because the protein is not expressed in these cells. To circumvent this limitation in prenatal diagnosis, we induced myogenesis in amniocyte cultures by addition of a rhabdomyosarcoma's cell line supernatant. Rhabdomyosarcomas are tumors of skeletal muscle and known to produce myogenic factors. After 6 weeks skeletal-muscle proteins could be detected in 10 amniocyte cultures. Cultures from fetuses with no family history of Duchenne's dystrophy expressed dystrophin, cultures from patients with Duchenne's dystrophy were dystrophin-deficient. Immunochemical analysis of dystrophin in genetically altered non-muscle cells may be applicable to the prenatal diagnosis of Duchenne's muscular dystrophy when conventional DNA analysis is not informative.
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PMID:[In vitro transformation of amniotic cells to muscle cells--background and outlook]. 901 20

Recent studies with transgenic animals have considerably advanced our knowledge of the roles of dystrophin and utrophin in both muscle and non-muscle tissues. Rigorous analyses of the roles of the various mdx mutations in mice, as well as the use of artificial transgenes in an mdx background, are beginning to define the functional importance of various regions of the dystrophin protein in normal muscle. Furthermore, recent biochemical analyses have revealed new insights into the role and organization of dystrophin at the membrane-cytoskeleton interface. Transgenic approaches have also revealed surprising and encouraging results with respect to utrophin. Against expectations, the long-awaited utrophin knockout mice have a remarkably mild phenotype with only subtle changes in neuromuscular junction architecture. On the other hand, mdx mice transgenic for a mini-utrophin construct showed rescue of the muscular dystrophy phenotype, clearly an encouraging finding with obvious therapeutic possibilities. These and other recent findings are discussed in the context of the structure and function of dystrophin and utrophin at the membrane-cytoskeleton interface.
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PMID:The membrane-cytoskeleton interface: the role of dystrophin and utrophin. 942 56

The membrane cytoskeletal component dystrophin and its associated glycoproteins play a central role in the molecular pathogenesis of several muscular dystrophies, i.e. Duchenne/Becker muscular dystrophy, congenital muscular dystrophy and various forms of limb-girdle muscular dystrophy. Although the most frequent of these disorders, Duchenne muscular dystrophy, is mainly recognized as a disease of skeletal muscle fibers, pathophysiological changes also involve the heart and diaphragm, as well as the peripheral and central nervous system. Thus current research efforts into the elucidation of the molecular mechanisms underlying these genetic diseases are not only directed towards studying skeletal muscle necrosis but also investigate abnormalities of heart and brain dystrophin-glycoprotein complexes in cardiomyopathy and brain deficiencies associated with muscular dystrophy. Furthermore, many isoforms of dystrophin and dystrophin-associated components have been identified in various non-muscle tissues and their function(s) are mostly unknown. With respect to skeletal muscle fibers, the characterization of new dystrophin-associated proteins, such as dystrobrevin, sarcospan and the syntrophins, led to a modified model of the spatial configuration of the dystrophin-glycoprotein complex. However, it is generally accepted now that beta-dystroglycan forms the plasmalemma-spanning linkage between dystrophin and the laminin-binding protein alpha-dystroglycan and that this complex is associated with the sarcoglycan subcomplex of sarcolemmal glycoproteins.
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PMID:Role of dystrophin isoforms and associated proteins in muscular dystrophy (review). 985 Jul 30

Duchenne muscular dystrophy is a severe disorder caused by mutations in the dystrophin gene. Dystrophin is required for assembly of the dystrophin-glycoprotein complex and provides a mechanically strong link between the cytoskeleton and the extracellular matrix. Several proteins in the complex also participate in signaling cascades, but the relationship between these signaling and mechanical functions in the development of muscular dystrophy is unclear. To explore the mechanisms of myofiber necrosis in dystrophin-deficient muscle, we tested the hypothesis that restoration of this complex without a link to the cytoskeleton ameliorates dystrophic pathology. Transgenic mice were generated that express Dp116, a non-muscle isoform of dystrophin that assembles the dystrophin-glycoprotein complex, in muscles of dystrophin-deficient mdx(4cv) mice. However, the phenotype of these mice was more severe than in controls. Displacement of utrophin by Dp116 correlated with the severity of dystrophy in different muscle groups. Comparison with other transgenic lines demonstrated that parts of the dystrophin central rod domain were required to localize neuronal nitric oxide synthase to the sarcolemma, but this was not correlated with presence or extent of dystrophy. Our results suggest that mechanical destabilization, rather than signaling dysfunction, is the primary cause of myofiber necrosis in dystrophin-deficient muscle.
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PMID:Dissecting the signaling and mechanical functions of the dystrophin-glycoprotein complex. 1656 68

One of the proposed roles of sarcoglycan is to stabilize dystrophin glycoprotein complexes in muscle sarcolemma. Involvement in signal transduction has also been proposed and abnormalities in some sarcoglycan genes are known to be responsible for muscular dystrophy. While characterization of sarcoglycans in muscle has been performed, little is known about its functions in the non-muscle tissues in which mammalian sarcoglycans are expressed. Here, we investigated temporal and spatial expression patterns of Drosophila beta-sarcoglycan (dScgbeta) during development by immunohistochemistry. In addition to almost ubiquitous expression in various tissues and organs, as seen for its mammalian counterpart, anti-dScgbeta staining data of embryos, eye imaginal discs, and salivary glands demonstrated cytoplasmic localization during S phase in addition to plasma membrane staining. Furthermore we found that subcellular localization of dScgbeta dramatically changes during mitosis through possible association with tubulin. These observations point to a complex role of sarcoglycans in non-muscle tissues.
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PMID:Dynamic changes in the subcellular localization of Drosophila beta-sarcoglycan during the cell cycle. 1715 90

Myoferlin and dysferlin are members of the ferlin family of membrane proteins. Recent studies have shown that mutation or genetic disruption of myoferlin or dysferlin promotes muscular dystrophy-related phenotypes in mice, which are the result of impaired plasma membrane integrity. However, no biological functions have been ascribed to myoferlin in non-muscle tissues. Herein, using a proteomic analysis of endothelial cell (EC) caveolae/lipid raft microdomains we identified myoferlin in these domains and show that myoferlin is highly expressed in ECs and vascular tissues. The loss of myoferlin results in lack of proliferation, migration, and nitric oxide (NO) release in response to vascular endothelial growth factor (VEGF). Western blotting and surface biotinylation experiments show that loss of myoferlin reduces the expression level and autophosphorylation of VEGF receptor-2 (VEGFR-2) in native ECs. In a reconstituted cell system, transfection of myoferlin increases VEGFR-2 membrane expression and autophosphorylation in response to VEGF. In vivo, VEGFR-2 levels and VEGF-induced permeability are impaired in myoferlin-deficient mice. Mechanistically, myoferlin forms a complex with dynamin-2 and VEGFR-2, which prevents CBL-dependent VEGFR-2 polyubiquitination and proteasomal degradation. These data are the first to report novel biological activities for myoferlin and reveal the role of membrane integrity to VEGF signaling.
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PMID:Myoferlin regulates vascular endothelial growth factor receptor-2 stability and function. 1770 44

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