Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Rats fed a vitamin E-deficient diet for 7--8 weeks postweaning showed no change in brain weight or the activity in brain of various enzymes involved in neurotransmitter synthesis and metabolism. Body and muscle weights were markedly reduced. Muscle choline acetyltransferase and acetylcholinesterase activities were significantly elevated on a protein basis, but the total amount of choline acetyltransferase/muscle was essentially normal and total acetylcholinesterase activity was slightly reduced. Total carnitine acetyltransferase and butyrylcholinesterase activities were markedly decreased. The results are quite different from those found in hereditary murine muscular dystrophy and suggest a myogenic etiology for the vitamin E-deficiency-induced condition.
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PMID:Cholinergic systems in muscle and brain in vitamin E-deficient rats. 74 Jan 30

Chicks affected with hereditary muscular dystrophy were injected twice daily with 20 milligrams of diphenylhydantoin per kilogram of body weight on days 1 to 40 after hatching. The righting ability of dystrophic chicks treated with diphenylhydantoin was improved compared to that of untreated dystrophic chicks, and acetylcholinesterase activity was reduced to normal levels in the posterior latissimus dorsi muscles.
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PMID:Avian muscular dystrophy: functional and biochemical improvement with diphenylhydantoin. 84 10

To determine whether inherited muscular dystrophy of the chicken is neurogenic or myogenic in origin, limb buds from homozygous normal and dystrophic chick embryos were exchanged prior to muscle differentiation and innervation. Biceps muscles of hatched chicks, in which muscle of the donor was innervated by nerves of the host, were analyzed for embryonic properties of muscle acetylcholinesterase and for fiber diameter, two distinctive markers for expression of the dystrophic gene. The results indicate that muscular dystrophy of the chicken is caused by an initial biochemical lesion in the limb and its muscle rather than in its innervating nerve.
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PMID:Myogenic defect in acetylcholinesterase regulation in muscular dystrophy of the chicken. 111 14

Neural regulation of mature normal fast twitch muscle of the chicken suppresses high activity, extrajunctional localization, and isozyme forms of acetylcholinesterase (AChE) characteristic of embryonic, denervated and dystrophic muscle. Normal adult slow tonic muscle ofthe chicken retains intermediate levels of activity and embryonic isozyme forms but not extrajunctional activity; it is not affected by muscular dystrophy. The hypothesis that neural regulation of the AChE system is lacking in slow tonic muscle and thus not affected by dystrophy was tested by denervating the fast twitch posterior latissimus dorsi and slow tonic anterior latissimus dorsi muscles of normal and dystrophic chickens. Extrajunctional AChE activity and embryonic isozyme forms increased, then declined, in both muscles. The results suggest that ocntrol of AChE is qualitatively similar in slow tonic and fast twitch muscle of the chicken.
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PMID:Acetylcholinesterase in singly and multiply innervated muscles of normal and dystrophic chickens. II. Effects of denervation. 117 1

Evidence that acetylcholinesterase (AChE) activity is released from normal chick embryonic muscle fibers and from muscles of chickens with inherited muscular dystrophy suggested that denervated chick muscles, which have AChE properties similar to dystrophic muscles, would also release AChE. Bilateral denervation of the breast and wing muscles of normal chickens was followed by the appearance of AChE activity, distinguished from plasma cholinesterase by differential substrate hydrolysis, inhibitor sensitivity, and electrophoretic migration. Plasma creatine kinase (CK) activity was also elevated after denervation.
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PMID:Appearance of acetylcholinesterase and creatine kinase in plasma of normal chickens after denervation. 117 88

Fifty human muscle biopsies were examined for histochemical localization of acetylcholinesterase (AChE) activity. Six normal muscle samples had AChE at the myoneural junctions and around the periphery of many fibers. The AChE within the sarcoplasm itself was found in only a few atrophied fibers. However, 21 of 44 biopsies of abnormal muscles had sarcoplasmic AChE in more than 10% of their fibers. Such cases included Duchenne, limb-girdle and facio-scapulo-humeral dystrophy, neurogenic and spinal muscle atrophy, spinal cord injury, peripheral nerve injury, Schwartz-Jampel syndrome and myasthenic syndrome. Sarcoplasmic AChE is found in embryo muscle and usually declines after birth. It appears after denervation in the chicken but not the rat and remains in muscles of chickens with an inherited muscular dystrophy. The results of the human muscle study support the idea that in the human, as in the chicken, interruption of a neurally-mediated regulation of AChE results in the reappearance of high AChE activity in the sarcoplasm of the muscle fibers.
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PMID:Acetylcholinesterase in abnormal human muscle. 125 47

We analyzed the activity of acetylcholinesterase (AChE) and its molecular forms in the tissues of normal and dystrophic (mdx) mice, at different developmental stages. We studied the brain, the heart and the serum, in addition to four predominantly fast-twitch muscles (tibialis, plantaris, gastrocnemius and extensor digitorum longus (EDL)) and the slow-twitch, soleus muscle. We found no difference between mdx and control mice in the AChE activity of the brain and the heart. The skeletal muscles affected by the disease undergo active degeneration counterbalanced by regeneration between 3 and 14 weeks after birth. The distribution of AChE patches associated with neuromuscular junctions was abnormally scattered in mdx muscles, and in some cases (tibialis and soleus), the number of endplates was more than twice that of normal muscles. There were only minor differences in the concentration and pattern of AChE molecular forms during the acute phase of muscle degeneration and regeneration. After this period, however, we observed a marked deficit in the membrane-bound G4 molecular form of AChE in adult mdx tibialis, gastrocnemius and EDL but not in the plantaris or in the soleus, as compared with their normal counterparts. Whereas the amount of AChE markedly decreased in the serum of normal mice during the first weeks of life, it remained essentially unchanged in the serum of mdx mice. It is likely that this excess of AChE activity in serum originates from the muscles. A deficit in muscle G4 was also reported in other forms of muscular dystrophy in the mouse and chicken. Since it is not correlated to the acute phase of the disease in mdx and also occurs in genetically different dystrophies, it probably represents a secondary effect of the dystrophy.
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PMID:Molecular forms of acetylcholinesterase in dystrophic (mdx) mouse tissues. 142 3

The sex-linked dwarf gene (dw) was introduced into companion muscular dystrophic (am) and nondystrophic (Am+) New Hampshire chicken lines to investigate influences of the dwarf gene on breast muscle weights, muscle fiber area, and the histological expression of muscular dystrophy. Dystrophic and nondystrophic chickens within dwarf or nondwarf genotypes were similar in body and carcass weights. Pectoralis and supracoracoideus muscle weights (as a percentage of adjusted carcass weight) were similar in nondystrophic dwarf and nondwarf males and females. In addition, pectoralis weight was similar in dystrophic dwarf males and dystrophic nondwarf males and females. However, pectoralis weight was significantly smaller in dystrophic dwarf females than in dystrophic nondwarf females, whereas supracoracoideus weight was significantly larger in dystrophic dwarf males than in dystrophic nondwarf males. Supracoracoideus weight was similar in dystrophic dwarf males and females and dystrophic nondwarf females. Pectoralis muscle fiber area was influenced by sex and by dwarf and dystrophy genotype. Muscle fiber area was larger in females than in males, smaller in dwarfs than in nondwarfs, and smaller in dystrophic than in nondystrophic muscles. Muscle fiber degeneration and adipose infiltration was more extensive in dystrophic than in nondystrophic females and males, and it was more advanced in dwarfs than in nondwarfs. Excessive acetylcholinesterase staining patterns were characteristic of dystrophic muscle in both dwarf and nondwarf genotypes. Nondystrophic and dystrophic dwarf male and female chickens are comparable substitutes for nondwarfs as biomedical models with respect to pectoralis histology, acetylcholinesterase staining pattern, and pectoralis muscle hypertrophy.
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PMID:Effects of the sex-linked dwarf gene (dw) on the expression of the muscular dystrophy gene (am) in chicken. 179 99

Inhibition of the enzyme, acetylcholinesterase (AChE), at the neuromuscular junction by pyridostigmine (PYR) results in breakdown of the postjunctional folds and dissolution of the Z-discs. It is hypothesized that excess activation of the acetylcholine (ACh) receptors by unhydrolyzed ACh results in a large influx of calcium ions. This could possibly lead to the activation of calcium-dependent proteases, resulting in the observed myopathy. Pretreatment with the calcium channel blocker, diltiazem, followed by administration of both PYR and the calcium blocker resulted in a significant reduction in the extent of muscle damage due to PYR alone. In order to ascertain whether the calcium blocker could reverse the myopathy previously induced by PYR, the AChE inhibitor was administered first, resulting in significant muscle damage, followed the next day by diltiazem. After 7 days of diltiazem treatment, with continued administration of PYR, the calcium blocker significantly reduced the myopathy at the neuromuscular junction. The results are discussed in terms of possible clinical application of diltiazem in neuromuscular diseases (i.e. muscular dystrophy).
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PMID:Calcium channel blocker reverses anticholinesterase-induced myopathy. 279 Apr 49

The wings of 10 chickens between 1 and 5 years of age were passively extended. An increase in plasma creatine phosphokinase activity was observed in 30 min, continued to rise for 24 h, and then declined, suggesting mechanically induced damage to muscle fibers. Wing muscles were removed and examined histologically at various times after stretch. Patagialis muscles, but not biceps brachii, showed the development of muscle fiber pathology. The patagialis muscle is less active than the biceps brachii and is stretched to a greater degree by wing extension. Susceptibility of muscles to development of pathology appeared to be correlated with the age of the chickens. Pathology was remarkably similar to that observed in young chickens with hereditary muscular dystrophy. Necrotic fibers exhibiting segmental necrosis, abnormal shapes, enlargement, splitting, vacuolation, and phagocytosis were evident. Of particular interest was the appearance of abnormal clusters of acetylcholinesterase activity along the sarcolemma. These sites were shown to appear on fibers of 2-week-old dystrophic chicks prior to necrosis and increase in plasma creatine phosphokinase activity. It is suggested that aging of inactive muscles may promote adhesions between muscle fibers rendering them susceptible to damage when stretched and that necrosis of dystrophic fibers may be initiated by a similar mechanism. Such could occur if the genetic defect resulted in interfiber adhesions. Support for this hypothesis by other reports in the literature is discussed.
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PMID:Passive stretch of adult chicken muscle produces a myopathy remarkably similar to hereditary muscular dystrophy. 336 73


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