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

Erythrocytes from patients with myotonic muscular dystrophy accumulate calcium at a significantly higher rate than normals do. This increased rate of net accumulation appears related to an enhanced permeability of the membrane to calcium, rather than to an impairment in its active outward transport.
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PMID:Myotonic muscular dystrophy: altered calcium transport in erythrocytes. 63 89

Avian muscular dystrophy is an autosomal recessive genetic disease characterized by early hypertrophy and loss of function of pectoralis major. The disease is progressive, ultimately resulting in atrophy and heavy lipid deposition. Previous investigators have noted a decrease in the ability of the dystrophic sarcoplasmic reticulum to concentrate Ca2+. More recently, other investigators have shown an abnormal calcium uptake in avian dystrophic sarcoplasmic reticulum. They indicated, using freeze-fracture techniques, that a 90 A particle of the vesicle membrane exhibited a decreased population and suggested that they might be the ATPase involved in calcium transport. Our studies confirm earlier observations of a decreased rate of Ca2+ uptake and Ca2+ binding capacity of dystrophic fragmented sarcoplasmic reticulum vesicles which are isolated from both embryonic and adult pectoralis. These observations correlate in turn with a 75% drop in the Ca:ATP transport efficiency of the dystrophic sarcoplasmic reticulum determined by measuring the rate of 32Pi liberation from gamma-ATP32 during active calcium transport by the isolated sarcoplasmic reticulum SR. In addition, we have found a quantitative deficiency in a 65,000 dalton component of the dystrophic fragmented SR at the time of myoblast fusion by measuring 35S-Methionine incorporation into the SR, coupled to high resolution polyacrylamide gel electrophoresis and radioautography. Analysis of total tissue calcium by atomic absorption spectroscopy revealed a decrease in the total calcium content of dystrophic muscle.
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PMID:Ca2+ binding, ATP-dependent Ca2+ transport, and total tissue Ca2+ in embryonic and adult avian dystrophic pectoralis. 75 24

There is good evidence that abnormal calcium accumulation may be a final common pathway of muscle degeneration in the muscular dystrophies. Prostaglandins are able to promote calcium entry into cells and excess prostaglandin activity coupled with a defect in intracellular calcium release could cause toxic accumulations of calcium in intracellular organelles such as mitochondria. Serotonin stimulates prostaglandin synthesis while tricyclic antidepressants inhibit calcium release from intracellular organelles thus possibly accounting for the models of muscular dystrophy reported using this combination. The prostaglandin/calcium hypothesis can account for the effects of vitamin E, steroids and local anaesthetic-like drugs in muscular dystrophy. Since many drugs already in clinical use for other purposes can be used to control prostaglandin synthesis or action this hypothesis has immediate potential clinical applications.
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PMID:The roles of prostaglandins and calcium accumulation in muscular dystrophy. 89 91

Antibody prepared against troponin-C, the calcium binding component of the troponin complex, was reacted with I band segments, and the distribution of antibody binding was assessed by immuno-electron microscopy. The I segments were isolated from glycerinated pectoral muscle which was prepared from normal adult chickens and from dystrophic chickens of strain 308. The antibody was deposited at 384 A +/- 7 A intervals along the thin filaments of the normal muscle. In contrast to the normal controls the dystrophic muscle did not exhibit a distinct periodicity when reacted with anti-troponin-C. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate revealed that although protein bands corresponding to troponin-C could be observed in the gels of the dystrophic preparations, the troponin-C band had migrated slower than that from normal thin filaments. It is concluded that avian muscular dystrophy produces an alteration of the structure of troponin-C resulting in (1) an inability of the protein to combine with its specific antibody and (2) a change in its electrophoretic behavior.
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PMID:An effect of avian hereditary muscular dystrophy on the reaction of troponin-C with its antibody. 92 78

The BIO 14.6 dystrophic hamster (DH) is a genetically determined animal model of alveolar hypoventilation (AH) that exhibits a ventilatory control pattern of compensation and then decompensation similar to that in progressive forms of muscular dystrophy and nonprogressive congenital myopathies in humans. Possible causes of AH in the DH include respiratory muscle weakness, ventilation-to-perfusion inequalities, and an inadequate drive to breathe. Histochemical and contractile abnormalities of the diaphragm, reduced lung surface area available for gas exchange, abnormal pulmonary microvascular reactivity to hypoxia, altered levels of neurochemicals, and abnormal cellular regulation of calcium are among the specific factors that may contribute to the development of AH. The potential role of hypothyroidism in the development of AH is reviewed because many hypothyroid patients exhibit AH and other ventilatory dysfunctions, hypothyroidism is present in human patients and animals with muscular dystrophy, and thyroid status is known to influence lung architecture, myocyte function, and neural activity. Additional studies linking neurohormonal signals, transcellular signal processing, and control of ventilation in the DH may help us understand the etiology of AH in human disease.
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PMID:The dystrophic hamster: an animal model of alveolar hypoventilation. 168 89

1. Single, intact muscle fibres were dissociated enzymatically from skeletal muscles of phenotypically normal (+/?) and dystrophic mice (129/ReJ dy/dy: Dystrophia muscularis), and resting Ca2+ levels were measured by image analysis of intracellular Fura-2 fluorescence in distinct parts of the fibres. 2. Fura-2 was introduced into fibres by ionophoresis with glass microelectrodes to concentrations of between 50 and 200 microM. Over this concentration range there was no apparent buffering of intracellular Ca2+ by Fura-2. 3. Fibres isolated from the soleus, flexor digitorum brevis (FDB) and extensor digitorum longus (EDL) muscles of normal animals maintained resting [Ca2+] of 106 +/- 2 nM. Ca2+ distributions within individual fibres were homogeneous. 4. Fibres from dystrophic animals maintained [Ca2+] that was elevated two- to fourfold in comparison to normal fibres. 5. The population of skeletal fibres from dystrophic mice which displayed morphology similar to that of fibres of normal animals were found to have Ca2+ levels that averaged 189 +/- 2 nM. The distribution of Ca2+ within these fibres appeared uniform. 6. The population of dystrophic fibres that possessed morphological abnormalities maintained even higher Ca2+ concentrations (368 +/- 3 nM). Several fibres from this morphological group displayed obvious heterogeneity in Ca2+ distribution with distinct, localized areas of higher Ca2+. 7. These results support the contention that Ca2+ homeostasis is markedly impaired in dystrophic muscle. The elevated Ca2+ levels are near the threshold for contraction and, together with severe morphological fibre abnormalities, are probably centrally involved in fibre necrosis apparent in muscular dystrophy.
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PMID:Resting calcium concentrations in isolated skeletal muscle fibres of dystrophic mice. 223 12

1. Calpains (calcium-activated cysteine proteinases) have evolved by gene fusion events involving calmodulin-like genes, cysteine proteinase genes and other sequences of unknown origin. 2. The enzymes are composed of two non-identical subunits, each of which contains functional calcium-binding sequences. 3. Calpains are inhibited by the endogenous protein inhibitor, calpastatin and some calmodulin antagonists are also inhibitors of calpain. A number of synthetic proteinase inhibitors also inhibit calpains. 4. Calpains can be activated by phospholipids, an endogenous protein activator and some amino acid derivatives. 5. Various protein substrates for calpains have been recognized in vitro, but the identity of in situ substrates remains unclear. 6. Proposals have been made for calpain function, including involvement in signal transduction, platelet activation, cell fusion, mitosis and cytoskeleton and contractile protein turnover. 7. Calpain and calpastatin expression is altered in a number of abnormal states including muscular dystrophy, muscle denervation and tenotomy, hypertension and platelet abnormalities.
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PMID:Calpains (intracellular calcium-activated cysteine proteinases): structure-activity relationships and involvement in normal and abnormal cellular metabolism. 227 16

Gross pathologic lesions and light microscopic and ultrastructural features of skeletal muscle lesions in canine X-linked muscular dystrophy (CXMD) were studied in dogs from 3 months to 6 years of age. Necrosis and regeneration were present at all ages, but were most prominent in the youngest dogs studied. Increased intracytoplasmic calcium, as evidenced by positive alizarin red S staining, was associated with fiber necrosis, but was also seen in small numbers of otherwise normal fibers. Progressive changes included development of severe fiber size variation, endomysial and perimysial fibrosis, prominent cytoplasmic disorganization, internalization of myonuclei, mitochondrial proliferation, mild fat infiltration, and alterations in the fiber-type pattern. The most consistent early ultrastructural changes were dilatation of the sarcoplasmic reticulum and focal subsarcolemmal areas of degeneration. Convincing sarcolemmal defects were not found. Z-band streaming was present at all ages, and Z-band duplication and nemaline rods were seen in older dogs. Evidence for abnormal regeneration was found in the oldest dog, and was associated with extensive fibrosis. These findings document the progression of lesions in CXMD, and illustrate the profound alterations in fiber organization and fiber type that may occur in late stages of dystrophin-deficient muscular dystrophy.
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PMID:Canine X-linked muscular dystrophy: morphologic lesions. 237 May 57

Myotonic muscular dystrophy, or Steinert disease, is a dominantly inherited disease of muscle which occurs with a frequency of between 1 in 18,000 and 1 in 7,500 people (refs 1, 2). One of the prominent clinical manifestations is muscle stiffness and difficulty in relaxation of muscles after voluntary contractions. Electrophysiological signs of myotonia include increased excitability with a tendency to fire trains of repetitive action potentials in response to direct electrical and mechanical stimulation. Most experimental and clinical data suggest that myotonic muscular dystrophy arises from genetically induced alterations of the muscle membrane. We show here for the first time that muscle membranes of patients with myotonic muscular dystrophy contain the receptor for apamin, a bee venom toxin known to be a specific and high-affinity blocker of one class of Ca2+-activated K+ channels in mammalian muscle. The apamin receptor is completely absent in normal human muscle as well as in muscles of patients with spinal anterior horn disorders.
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PMID:Expression of apamin receptor in muscles of patients with myotonic muscular dystrophy. 241 58

Intracellular staining for calcium was studied in muscle biopsies from 15 dogs by the alizarin red S (ARS) stain. Rare positive fibres were present in normal muscle and in denervation atrophy. The percentage of positive fibres was slightly increased in polymyositis, dermatomyositis and canine temporal/masseter myositis and markedly increased in progressive muscular dystrophy. Calcium-positive fibres were usually so-called large-dark (hypercontracted) fibres or necrotic fibres, although there was occasional staining of normal and atrophied fibres. These results indicate the probable involvement of calcium in muscle injury in canine inflammatory myopathies and in canine muscular dystrophy. In addition, use of the ARS stain appears to be useful for detecting the earliest lesions of acute muscle fibre injury.
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PMID:Intracellular calcium in canine muscle biopsies. 247 Jul 89

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