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)

DMD and BMD are now understood at the genetic, biochemical, and molecular levels. At the genetic level, both disorders result from mutations of the X-linked gene encoding dystrophin. At the biochemical level, DMD results from the deficiency of a large protein called dystrophin, whereas BMD results when dystrophin is present, though abnormal in either amount or molecular structure. To date, thousands of patients have been analyzed for mutations of the dystrophin gene in peripheral blood DNA or alterations of the dystrophin protein in muscle tissue. The severity of the clinical phenotype of these patients has been compared with their dystrophin gene mutations and corresponding dystrophin protein alterations, revealing an unexpectedly high degree of correlation. Thus, information derived from the molecular analysis (DNA or protein) of a particular patient provides a "molecular diagnosis," which is highly predictive of the clinical course that patient can be expected to follow. Because molecular diagnoses are independent of the patient's age, they provide a prognosis for the large majority of muscular dystrophy patients even before clinical symptoms of their disease become apparent. Such prognostic molecular diagnoses have proven particularly valuable when the patient is an isolated case, with no family history for the disorder. Prenatal genetic diagnosis of DMD or BMD may involve use of Southern blot or PCR techniques to search for a deletion in the DNA of at-risk fetuses or more complicated family linkage studies using intragenic and flanking RFLPs. More recently, assay of dystrophin content in fetal skeletal or cardiac muscle from at-risk abortuses has been accomplished, allowing definitive discrimination of affected and normal fetuses in cases in which deletion analyses and family DNA studies were equivocal. In utero fetal skeletal muscle biopsy for dystrophin protein assay has actually been accomplished in at least one at-risk pregnancy in which family DNA studies were uninformative. Dystrophin was present in skeletal muscle from this 20-week-old male fetus, and the pregnancy continued, resulting in the term birth of a healthy male infant. The future holds exciting opportunities for neonatal screening and treatment of these devastating neuromuscular diseases.
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PMID:Duchenne and Becker muscular dystrophies: genetics, prenatal diagnosis, and future prospects. 228 31

Most known mutations in the gene region responsible for Duchenne or Becker muscular dystrophy are deletions of varying extent. Here we describe a 220-kb insertion within the DMD/BMD gene that cosegregates with a somewhat atypical course of muscular dystrophy in a pedigree. The insertion is demonstrated by field-inversion gel electrophoresis as an enlarged SfiI fragment hybridizing to probe J-Bir, while neighboring SfiI fragments (detected by probes PERT 87 and J-66) are unchanged. Hybridization with DMD c-DNA probes did not reveal alterations in coding sequences. In this pedigree, the altered SfiI fragments provide convenient markers for carrier identification.
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PMID:Identification of a 220-kb insertion into the Duchenne gene in a family with an atypical course of muscular dystrophy. 256 31

In the preceding paper a sensitive Western blotting analysis system based on the use of a monoclonal antibody to dystrophin was described. Here we report the immunoreactivity on blots and on unfixed frozen sections of muscle from patients with Duchenne (DMD) and Becker (BMD) muscular dystrophy. Muscle from 3 BMD patients showed variation both in the band pattern observed on blots and in the immunocytochemical labelling of dystrophin on frozen sections. In contrast to previous reports, we were able to detect some minor dystrophin bands on blots from 6 of 9 DMD biopsy samples. Tissue sections from 8 of the 9 contained isolated fibres with dystrophin-positive labelling. We conclude that the majority of DMD patients have muscle fibres which can synthesize dystrophin in a limited manner.
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PMID:Dystrophin in skeletal muscle. II. Immunoreactivity in patients with Xp21 muscular dystrophy. 269 18

Cloning of a DNA segment including the translocation breakpoint in a female with an X;21 translocation and X linked muscular dystrophy has led to identification of three subclones which detect polymorphic markers. The alleles of these markers, XJ1 X 1, XJ1 X 2, and XJ2 X 2, are in strong linkage disequilibrium. Linkage analysis in 31 families with Duchenne or Becker muscular dystrophy has shown recombination within the XJ segment in one case, and recombination of DMD with both the XJ segment and the pERT87 segment in a second, but has revealed no recombination between the XJ and pERT87 segments. The XJ markers increase the proportion of DMD and BMD families that are informative for carrier detection and prenatal diagnosis, but in view of the risk of recombination they must be used with caution. The site(s) of the DMD mutation(s) relative to the XJ and pERT87 markers, and the detailed molecular structure of the DMD region, remain to be determined.
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PMID:Linkage analysis of polymorphisms within the DNA fragment XJ cloned from the breakpoint of an X;21 translocation associated with X linked muscular dystrophy. 287 26

With the aim of offering carrier detection, genetic counselling, and prenatal diagnosis to as many families with Duchenne (DMD) and Becker (BMD) muscular dystrophy as possible, we used available DNA probes to determine the usefulness of the RFLP approach. We report in detail the risks calculated using Bayesian theory and combining pedigree and creatine kinase (CK) data with information derived from the RFLP studies. To date we have analysed members of 28 DMD families (10 familial, 18 sporadic) and six BMD families (four familial, two sporadic) with the closely linked pERT probes 87-1, 87-8, and 87-15 (DXS164). In addition, key members of all families were analysed with probes D2 (DXS43), C7 (DXS28), 754 (DXS84), and L1 X 28 (DXS7). Of the 97 females at risk of being carriers (not including 26 obligate carriers), the RFLP results were compatible with carriership in 22 and not in 51. In 24 females (including 17 mothers of sporadic cases), no information regarding carriership was derived from the RFLP studies. There was no disagreement between pedigree information, clearly raised CK values, and DNA studies. Of 52 obligate or possible carriers under the age of 45, prenatal diagnosis is possible in 49. Prenatal diagnostic RFLP studies have so far been done in three women. In one sporadic DMD family and one BMD family with three affected males the probands showed a deletion involving the three pERT87 subclones used. Experience derived from these families indicates that in our society genetic counselling in X linked muscular dystrophy is received with approval or even enthusiasm in spite of the 5% error estimate that we have quoted for pERT87 derived results.
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PMID:Carrier detection and prenatal diagnosis in X linked muscular dystrophy using restriction fragment length polymorphisms. 287 28

Deletions in the gene sequence for Duchenne (DMD) and Becker (BMD) muscular dystrophy were detected in affected males with four cDNA probes, Cf56a, Cf23a, Ca1A, and Cf27. Most of the deletions were seen with only one of the probes. Cf23a detected all BMD deletions seen with Cf56a and some that were not. The same markers also detected restriction fragment length polymorphisms for those cases where deletions were not evident. The probes were also used successfully for prenatal diagnosis in two families each with two DMD affected males. In DMD families successive application of probes Cf56a, Ca1A, and Cf27 will give a 70% chance of detecting the mutation. BMD families should first be screened with the Cf23a probe.
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PMID:Effective strategy for prenatal prediction of Duchenne and Becker muscular dystrophy. 289 Sep 1

The distribution of HLA class I and class II antigens has been investigated in cryostat sections of a series of 200 skeletal muscle biopsy specimens from patients with various neuromuscular disorders. Normal muscle fibres expressed no detectable class I antigens, whereas muscle fibres of patients with inflammatory myopathies and Duchenne (DMD) and Becker (BMD) muscular dystrophy showed consistently strong expression. In other neuromuscular diseases expression of class I antigens was more variable. No expression of class I antigens was observed on muscle fibres in samples from fetuses "at risk" for DMD and BMD or from female carriers of these disorders. The immunocytochemical assessment of HLA class I antigen expression was confirmed by a quantitative radioimmunoassay which demonstrated a 3-fold increase in the level of expression in muscle samples from patients with DMD and juvenile dermatomyositis. Class II antigen expression was never observed on muscle fibres in biopsies from normal individuals or any of the neuromuscular disorders. However, these antigens were expressed by endothelial cells present in these samples. Muscle specimens from fetuses and early in postnatal life showed very limited expression of class II antigens. They were expressed at a reduced level by about 3 months of age, but strong expression of class II antigens was not observed until about 1 year of age. The mechanism of induction of class I antigen expression in diseased muscle is not known. The appearance of class I antigens on diseased muscle may make the affected tissue a target for cytotoxic T cells and may thus have a role in muscle fibre damage in inflammatory myopathies and the X-linked muscular dystrophies.
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PMID:Expression of class I and class II MHC antigens in neuromuscular diseases. 292 49

X-chromosome-specific DNA probes were used to study a new type of muscular dystrophy (MD) presented by two boys in a family in which there was no previous history neuromuscular disease. Clinical investigations showed evidence of myogenic myopathyia, but its exact nature could not be established. The results of the DNA analysis exclude DMD, BMD and EMD. We suggest a probable autosomal recessive inheritance for the MD seen in this family.
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PMID:A new type of muscular dystrophy in two brothers: analysis by use of DNA probes suggests autosomal recessive inheritance. 322 98

A series of 95 families, consisting of 317 patients with severe and mild X-linked proximal pseudohypertrophic muscular dystrophy (MD), was analysed by the use of two different and rigid clinical criteria based on the age when the patient became chairbound. Using these criteria the families from Erfurt and Warsaw could be clearly separated into classical Duchenne (DMD) and classical Becker (BMD) type patients. A third group of patients was found with atypical clinical course, who could not be identified as neither Duchenne nor Becker cases. Statistically highly significant differences were found between the groups of classical DMD and atypical MD cases on the one hand and between the groups of atypical MD and classical BMD cases on the other, especially with respect to age when chairbound and age at death. The comparisons of progression of the disease, life expectancy and of fertility between the three groups of X-linked MD show that classical DMD and atypical MD may be considered as separate types of severe X-linked proximal pseudohypertrophic MD. On the basis of these findings the authors offer conclusions for the general practice of neurology, paediatrics and genetic counseling.
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PMID:Atypical form of X-linked proximal pseudohypertrophic muscular dystrophy. 358 25

Dystrophin gene deletions account for up to 68% of all Duchenne (DMD) and Becker (BMD) muscular dystrophy mutations. In affected males, these deletions can be detected easily using multiplex PCR tests which monitor for exon presence. In addition, quantitative dosage screening can discriminate female carriers. We previously analyzed multiplex PCR products by gel electrophoresis and quantitation of fluorescently labeled primers with the Gene Scanner in order to test carrier status. These multiplex PCR protocols detect DMD gene deletions adequately, but require up to 18 pairs of fluorochrome-labeled primers. We previously described two alternative fluorescent labeling strategies, each with approximately 1,000-fold greater sensitivity than ethidium bromide staining, which can be used to quantify the products of multiplex PCR. The first method uses the DNA intercalating thiazole orange dye TOTO-1 to stain PCR products after 20 cycles. In the second method, fluorescein-12,2'-dUTP is incorporated into products during PCR as a fluorescent tag for subsequent quantitative dosage studies. Both methods label all multiplexed exons including the 506 bp exon 48 fragment that is difficult to detect and quantify by standard ethidium bromide staining. Using this approach, we determined DMD/BMD carrier status in 24 unrelated families using a fluorescent fragment analyzer. Analysis of fluorochrome-labeled PCR products facilitates quantitative multiplex PCR for gene-dosage analysis.
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PMID:Duchenne/Becker muscular dystrophy carrier detection using quantitative PCR and fluorescence-based strategies. 751 Sep 32


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