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)

gamma-Glutamyl transpeptidase, a membrane-bound enzyme playing an important role in the active amino acid transport across cellular membranes, is shown to be elevated in the serum of patients with myotonic muscular dystrophy. No increase of AP, LAP, GOT and GPT activities in the sera of some of the patients studied is observed. Possible interpretations in relation to the pathogenesis of myotonic dystrophy are discussed.
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PMID:Gamma-glutamyl transpeptidase. Elevated activity in myotonic dystrophy. 0 80

The mild, generalized myopathy (glycogenosis type II) of a 23-year-old male, previously thought to have progressive muscular dystrophy, was studied clinically, electro-myographically, biochemically and with light- and electron microscopes. However, the history and clinical aspects, as well as the registration of high frequency discharges in the electromyogram first made the diagnosis uncertain. This kind of spontaneous activity has been found in nearly all cases reported in the literature. Light microscopic and histochemical examinations show vacular degeneration and glycogen storage in muscle fibres. With the electron microscope we found free dispersed glycogen in the cytoplasm and membrane-bound glycogen, glycogen-filled lysosomes. Biochemical measurements of the muscle enzymes, involved in the glycogen breakdown, were normal except for acid alpha-1,4-glucosidase, which was deficient. The evidence of these findings in this abortive form of glycogenosis type II is discussed and compared with the few cases found in the literature.
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PMID:The symptomatology, morphology and biochemistry of glycogenosis type II (Pompe) in the adult. 5 76

The activities of the membrane-bound protein kinases of the human erythrocytes membrane that phosphorylate spectrin, band-3 protein, and phospholipids were compared in patients with myotonic muscular dystrophy and normal age- and sex-matched controls. These activities tended to be lower in the patients, but the differences were not statistically significant. In contrast, the temperature responses (the increase in activity in response to an increase in temperature from 30 degrees C to 37 degrees C) of the spectrin and band-3 protein kinase activities were significantly lower in the patients. Although they do not eliminate an alteration of one of the substrates, these results are consistent with the proposal that differences in erythrocytes from myotonic muscular dystrophy (MyD) patients are due to a membrane lipid change. Cholesterol is unlikely to be the altered lipid, as no difference in membrane cholesterol content was found.
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PMID:Myotonic muscular dystrophy: abnormal temperature response of membrane phosphorylation in erythrocyte membranes. 22 55

Two membrane-bound enzymes, concerned in repair of erythrocyte membranes, have been investigated in patients with muscular dystrophy. The activation of long-chain fatty acids is normal in erythrocytes from Duchenne patients, but increases two-fold in cells from myotonic dystrophy patients (congenital form). This alteration is not present in leucocytes. In all leucocytes tested palmitate was the preferred substrate while palmitoleate and linoleate were activated at a lower rate. In the erythrocytes the 3 fatty acids were activated at the same rate. Carnitine palmitoyltransferase was not significantly altered in erythrocytes of both groups of patients.
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PMID:Fatty acid activation and transfer in blood cells of patients with muscular dystrophy. 43 51

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

Because the erythrocyte (RBC) in Duchenne's muscular dystrophy (DMD) is thought to be a suitable experimental paradigm for the sarcolemma, the RBC membrane-bound enzyme (Ca2+ + Mg2+)-ATPase has been investigated as to its relevance to abnormalities of calcium metabolism in DMD muscle. In this study, RBC (Ca2+ + Mg2+)-ATPase activity, intracellular calcium and potassium contents and complete hemogram were examined in 10 DMD patients and 16 age-matched controls. (Ca2+ + Mg2+)-ATPase activity was found elevated in the DMD RBC, consistent with reports from previous studies, but no abnormalities in intracellular calcium, potassium or hemograms were detected. It seems that although the (Ca2+ + Mg2+)-ATPase activity is changed, it bears no relevance to calcium homeostasis in DMD RBC. It is inferred that the increase in intramuscular calcium in DMD muscle, which is also found in other neuromuscular diseases, may be a non-specific finding in the diseased muscle and part of the final common pathway leading toward cellular degeneration and death.
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PMID:Erythrocyte (Ca2+ + Mg2+)-ATPase activity and calcium homeostasis in Duchenne muscular dystrophy. 614 34

The response of the membrane-bound enzyme AChE to changes in temperatures was investigated to test the applicability of the "generalized membrane defect" hypothesis proposed for human myotonic and Duchenne muscular dystrophies to the two forms of muscular dystrophy expressed in mice. For intact platelets from homozygous normal and dystrophic mice of both strains, a break (Tc) occurred in the Arrhenius plot of AChE activity at approximately 22 C. Solubilization of membrane-bound AChE by Triton X-100 produced a nonlinear Arrhenius plot over the temperature range (7.7 C to 37 C) in normal and dystrophic mice of both strains. However, in the presence of phospholipase A2 + C and Triton X-100, a linear Arrhenius plot was produced indicating that the membrane-bound enzyme is normally modulated by a bulk lipid domain as well as by a tightly bound (immobilized) phospholipid domain. The temperature response of platelet AChE from normal and dystrophic mice of both strains was not significantly different. These results showing normal temperature kinetics of AChE do not lend support to the theory of a membrane defect in the platelets of dystrophic mice.
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PMID:Evidence against a generalized membrane defect in dystrophic mice platelets. 712 7

Protein O-linked mannose beta1,2-N-acetylglucosaminyltransferase 1 (POMGnT1) catalyzes the transfer of GlcNAc to O-mannose of glycoproteins. Mutations in the POMGnT1 gene cause a type of congenital muscular dystrophy called muscle-eye-brain disease (MEB). We evaluated several truncated mutants of POMGnT1 to determine the minimal catalytic domain. Deletions of 298 amino acids in the N-terminus and 9 amino acids in the C-terminus did not affect POMGnT1 activity, while larger deletions on either end abolished activity. These data indicate that the minimal catalytic domain is at least 353 amino acids. Single amino acid substitutions in the stem domain of POMGnT1 from MEB patients abolished the activity of the membrane-bound form but not the soluble form. This suggests that the stem domain of the soluble form of POMGnT1 is unnecessary for activity, but that some amino acids play a crucial role in the membrane-bound form.
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PMID:Structure-function analysis of human protein O-linked mannose beta1,2-N-acetylglucosaminyltransferase 1, POMGnT1. 1520 99

Dysferlinopathy refers to a group of autosomal recessive muscular dystrophies due to mutations in the dysferlin gene causing deficiency of a membrane-bound protein crucially involved in plasma membrane repair. The condition is characterized by marked clinical heterogeneity, the different phenotypes/modes of presentation being unrelated to the genotype. For unknown reasons, patients are often remarkably active before the onset of symptoms. Dysferlin deficiency-related persistence of mechanically induced sarcolemma disruptions causes myofiber damage and necrosis. We postulate that limited myodamage may initially remain hidden with well-preserved resistance to physical strains. By subjecting dysferlin-deficient B6.A/J-Dysf(prmd) mice to long-term swimming exercise, we observed that concentric/isometric strain improved muscle strength and alleviated muscular dystrophy by limiting the accumulation of membrane lesions. By contrast, eccentric strain induced by long-term running in a wheel worsened the dystrophic process. Myofiber damage induced by eccentric strain increased with age, reflecting the accumulation of non-necrotic membrane lesions up to a critical threshold. This phenomenon was modulated by daily spontaneous activity. Transposed to humans, our results may suggest that the past activity profile shapes the clinical phenotype of the myopathy and that patients with dysferlinopathy should likely benefit from concentric exercise-based physiotherapy.
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PMID:Dual effects of exercise in dysferlinopathy. 2362 56

Murine muscular dystrophy is characterized by a reduction of the 10S molecular form of acetylcholinesterase (AChE); this reduction occurs in both strains of dystrophic mice and at the time of the phenotypic appearance of the disease. In the present study we have analyzed the biochemical features, the cellular distribution and the developmental appearance of the AChE alteration. Sequential extractions with low salt, detergent and high salt revealed that this alteration affects only membrane-bound forms (those requiring Triton X-100 for solubilization), while both the low salt soluble and the high salt soluble forms appeared almost identical in normal and dystrophic muscles. Specific activity, sensitivity to different ions, pH dependence and Km were found to be identical in the enzymes from normal and dystrophic muscles, suggesting that the catalytic site of the 10S form is probably not altered. Further analysis, by non-denaturing gel electrophoresis, of the detergent soluble forms separated by sedimentation, revealed a single band for the 4S, a doublet for the 6S and three bands for the 10S peaks, indicating the existence of charge heterogeneity in AChE molecular forms. The corresponding molecular forms from dystrophic muscles behaved identically upon electrophoresis: the residual activity in the detergent soluble 10S form could still be separated into three bands, comigrating with their normal counterparts. Neuraminidase treatment resulted in a reduction of migration of both the 6S and 10S derived bands, but not of the 4S species, showing that sialic acid is added only to polymeric forms. Interestingly, the reduction of the 10S form appears to be linked to a developmental stage not reached in cell cultures, as cultured myotubes from muscles of dystrophic mice contained normal amounts of membrane-bound AChE forms. The molecular mechanism underlying the reduction of the tetrameric membrane bound AChE form in dystrophic muscle and the possible functional consequences are discussed.
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PMID:Membrane acetylcholinesterase in murine muscular dystrophy In vivo and in cultured myotubes. 2487 58

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