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)

Implantation of normal muscle precursor cells into myopathic fibres to alleviate recessively inherited diseases of skeletal muscle has received much attention since the discovery of a defective or deficient gene coding for the protein dystrophin in the Duchenne and Becker forms of muscular dystrophy. Therapeutic allografting of cells would require some means of preventing their immune rejection. Here we have allografted muscle into the non-tolerant and non-immunosuppressed murine host. Precursor cells introduced in the form of a single cell suspension survive for prolonged periods post-implantation. Allografts of minced muscle often failed to survive, even though host and donor were compatible at the major histocompatibility locus. Differences at minor loci may well have contributed to such rejection. Where allografted tissue was rejected, there was a decrease in the amount of surviving host muscle at the graft site, an important observation in terms of the therapeutic implantation of cells.
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PMID:Allografts of muscle precursor cells persist in the non-tolerized host. 182 45

Dystrophin, the protein product of the Duchenne muscular dystrophy locus, is encoded by a 14 kb transcript of over 65 exons. A point mutation in the homologous mouse gene causes muscular dystrophy in mdx mice. We have examined the developmental regulation of transcription of this gene in skeletal mouse muscle and also the tissue specificity of the transcript in muscle and brain, by using the polymerase chain reaction to amplify overlapping segments of dystrophin mRNA spanning the entire coding sequence and 5'-untranslated region. We have characterised a specific embryonic transcript that would encode dystrophin with a different C-terminus and have shown that this persists from the earliest stages to the adult in mdx skeletal muscle. The brain transcript shows striking sequence homology to rat and human, being highly conserved at the 5'-untranslated region and is present in both wild-type and mdx mice.
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PMID:Developmental and tissue-specific regulation of mouse dystrophin: the embryonic isoform in muscular dystrophy. 182 83

Dystrophin Related Protein is the recently identified protein product of a large autosomal transcript, showing significant similarity to dystrophin at the carboxyl terminus. Dystrophin related protein and dystrophin share a similar abundance and molecular weight, however, they differ both in their tissue distribution and expression in Duchenne/Becker muscular dystrophy. Here we define the immunolocalization of dystrophin related protein to neuromuscular and myotendinous junctions, along with peripheral nerves and vasculature of skeletal muscle. Groups of regenerating muscle fibres as well as embryonic and neonatal muscle express far greater amounts of dystrophin related protein compared with adult mdx mice. These findings may explain the paradoxical labelling seen using dystrophin antibodies in Duchenne patients and dystrophin deficient mdx mice. Finally, no abnormalities of dystrophin related protein expression were detected in three patients with Duchenne-like autosomal recessive muscular dystrophy.
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PMID:Immunolocalization and developmental expression of dystrophin related protein in skeletal muscle. 182 93

A 6-yr-old boy who presented with brown urine due to myoglobinuria and who was otherwise virtually asymptomatic was diagnosed as having Becker muscular dystrophy on the basis of a greatly elevated creatine kinase, muscle biopsy, dystrophin analysis, and a deletion of exons 3-7 in the dystrophin gene. Fifteen months later, during a general anaesthetic for dental treatment, he had a cardiac arrest associated with acute rhabdomyolysis, hyperkalaemia and hypocalcaemia. He died 4 days later. This case is reported to highlight this rare but potentially fatal complication of anaesthesia in muscular dystrophy, and to discuss possible ways of preventing such a catastrophe.
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PMID:Fatal rhabdomyolysis complicating general anaesthesia in a child with Becker muscular dystrophy. 182 95

Duchenne's muscular dystrophy (DMD) is an X-linked progressive myopathy caused by a defect in the DMD gene locus. The gene corresponding to the DMD locus produces a 14-kilobase (kb) messenger RNA that codes for a large cytoskeletal membrane protein, dystrophin. DMD and Becker's muscular dystrophy are the consequences of dystrophin mutations. The exact biological function of dystrophin remains unknown but it has been demonstrated that it is localized to the cytoplasmic face of the cell membrane and has direct interaction with several other membrane proteins. We report here the synthesis of a 14-kb full-length complementary DNA for the mouse muscle dystrophin mRNA and the expression of this cDNA in COS cells. The recombinant dystrophin is indistinguishable from mouse muscle dystrophin by western blot analysis with anti-dystrophin antibodies and was shown by an immunofluorescent technique to be localized in the cell membrane. Our successful construction of a functional full-length cDNA opens opportunities for the study of structure and function of dystrophin and provides an opportunity to initiate gene therapy studies.
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PMID:Expression of recombinant dystrophin and its localization to the cell membrane. 182 97

Of the 3,048 diagnostic muscle biopsies processed by the National Institute of Neuroscience, Tokyo, over 12 years, 41 cases carried the clinical diagnosis of limb-girdle muscular dystrophy. We have analyzed all 41 cases for dystrophin content in muscle by both immunofluorescence and immunoblot. We identified five male patients with an abnormal dystrophin pattern diagnostic of Becker muscular dystrophy, and two female patients with dystrophin patterns consistent with a manifesting carrier of Duchenne muscular dystrophy diagnosis. Thus, 17% of our limb-girdle patients showed a dystrophinopathy, indicating that they in fact had a disorder related to Duchenne/Becker muscular dystrophy. Misclassification of isolated male limb-girdle patients was 31% (4/13), while misclassification of isolated female limb-girdle patients was 13% (2/15). Using multiplex polymerase chain reaction analyses of small amounts of muscle biopsy DNA confirmed a dystrophin gene deletion in all five male Becker dystrophy patients identified. This study emphasizes the clinical overlap between limb-girdle muscular dystrophy and dystrophinopathies, and reinforces the necessity of dystrophin protein and gene studies for the accurate clinical diagnosis of isolated cases of muscular dystrophy.
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PMID:The frequency of patients with dystrophin abnormalities in a limb-girdle patient population. 146 19

Using 10 overlapping nested sets of primers and using peripheral blood lymphocyte (PBL) total RNA as template, we have developed a system, based on PCR, which allows the rapid production of double-stranded cDNA corresponding to the entire coding sequence of the dystrophin gene. The product can be visualized on native minigels by ethidium staining and directly sequenced after gel purification. We have used this system to analyze the structures of PBL dystrophin mRNA in 26 Duchenne, Becker, or intermediate muscular dystrophy patients who have gross rearrangements of the dystrophin gene. In each case, the effect that the genomic rearrangement has on the structure of the transcript--and, by inference, on the dystrophin protein--has been determined, and the results confirm the frameshift hypothesis. The study also identifies a series of alternatively spliced transcripts which are specific to the rearranged genotypes and which seem therefore to arise following the alteration in the context of the splice signal. The system has been used for unambiguous identification of carrier females. Furthermore, the rapid production of microgram quantities of dystrophin cDNA from a readily accessible tissue makes point-mutation screening a practical proposition.
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PMID:Direct detection of dystrophin gene rearrangements by analysis of dystrophin mRNA in peripheral blood lymphocytes. 186 92

Neonatal screening for Duchenne/Becker Muscular dystrophy (DMD/BMD) was begun as a pilot program on January 1, 1986. The aim of this program was to reduce the incidence of this X-linked recessive degenerative neuromuscular disease. The neonatal detection of a boy with DMD allows early identification of carriers and genetic counselling. This may avert the birth of other affected males born prior to clinical diagnosis of DMD in the propositus at about age 5 years. Between January 1, 1986, and December 31, 1988, we identified and characterized a cohort of 8 asymptomatic infant boys with grossly elevated levels of creatine kinase, an active primary dystrophic process of muscle and complete dystrophin deficiency. Five of 8 males have detectable DNA alterations involving the DMD/BMD locus. Based on current hypotheses, characterization of dystrophin expression of this cohort allows us to predict a DMD phenotype in all 8 boys. To date, no additional males with DMD have been born in these families. Prospective follow-up will allow us to test the validity of dystrophin testing in predicting the clinical course and impact of this program on reproductive decision making in these families.
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PMID:Three years' experience with neonatal screening for Duchenne/Becker muscular dystrophy: gene analysis, gene expression, and phenotype prediction. 186 67

Duchenne's muscular dystrophy (DMD), which affects one in 3,500 males, causes progressive myopathy of skeletal and cardiac muscles and premature death. One approach to treatment would be to introduce the normal dystrophin gene into diseased muscle cells. When pure plasmid DNA is injected into rodent skeletal or cardiac muscle, the cells express reporter genes. We now show that a 12-kilobase full-length human dystrophin complementary DNA gene and a 6.3-kilobase Becker-like gene can be expressed in cultured cells and in vivo. When the human dystrophin expression plasmids are injected intramuscularly into dystrophin-deficient mdx mice, the human dystrophin proteins are present in the cytoplasm and sarcolemma of approximately 1% of the myofibres. Myofibres expressing human dystrophin contain an increased proportion of peripheral nuclei. The results indicate that transfer of the dystrophin gene into the myofibres of DMD patients could be beneficial, but a larger number of genetically modified myofibres will be necessary for clinical efficacy.
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PMID:Human dystrophin expression in mdx mice after intramuscular injection of DNA constructs. 188 32

Two long-living brothers of dystrophin-related muscular dystrophy with an in-frame deletion of exon 3 of the dystrophin gene were described. Weakness of the lower extremities and pseudohypertrophy of calf muscles began at the age of 2 years in the elder brother and 4 years in the younger brother, respectively. Clinical symptoms progressed rapidly and both of them lost ambulation and became wheelchair bound at the age of 11-12 years. However, the progression of the disease process slowed in late teens, and now at the age of 36 and 33 years, respectively, they do not have respiratory or cardiac insufficiency, although they are disabled severely. Southern blotting with the entire dystrophin cDNAs, cDNA 1-2a, 2b-3, 4-5a, 5b-7, 8, and 9-14, revealed a single deletion of exon 3 in the 2 brothers. The mother was shown to be a heterozygote for this mutation. The unique clinical features of these brothers were presumed due to the following 2 factors: (1) a single deletion of exon 3 is an in-frame deletion of the dystrophin gene, and (2) exon 3 corresponds to a unique domain of the dystrophin molecule; the amino-terminal region which is highly homologous to the actin-binding-region of alpha-actinin. We consider that these 2 brothers are compatible with the so-called frame-shift hypothesis of Duchenne/Becker muscular dystrophy (DMD/BMD) phenotype, although they are diagnosed DMD by the classification method based on the patients' age of becoming permanently wheelchair bound.
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PMID:[Two long-living brothers of dystrophin-related muscular dystrophy with an in-frame deletion of exon 3 of the dystrophin gene--clinical features and diagnosis]. 189 67

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