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:C1762617 (weakness)
37,932 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Duchenne and Becker muscular dystrophy (DMD and BMD) are progressive disorders, which almost exclusively affect males. DMD is the more severe type with an onset at 2-3 years of age. Patients become wheelchair-bound before the age of 13 and often die due to cardiac arrest or respiratory insufficiency. BMD, a more varying phenotype which may overlap with limb girdle muscular dystrophy (LGMD), has a less severe muscle weakness which starts later than in DMD patients. DMD carriers may show some muscle weakness. The dystrophin gene (2.4 Mb), known to be involved in DMD/BMD, codes for a 427 kilodalton muscle-specific protein named dystrophin as well as several tissue-specific isoforms. Dystrophin, as part of a membrane-bound complex of proteins, connects the cytoskeleton of the muscle cell to the extracellular matrix. Since 1985, when highly reliable carrier detection and prenatal diagnosis at the DNA level became possible, over 250 prenatal tests have been performed. Molecular genetic analysis, highlighted a phenomenon called germinal mosaicism, which explains the recurrence of de novo mutations and led to the discovery of the so-called reading-frame rule, which helps to discriminate between DMD and BMD. Fifteen years after the discovery of the dystrophin gene, mutations can be detected in 95% of the patients, while the remaining 5% are still hiding within this very large gene.
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PMID:[From gene to disease; the dystrophin gene involved in Duchenne and Becker muscular dystrophy]. 1188 23

Duchenne muscular dystrophy (DMD) is the most common disabling and lethal genetic muscle disorder, afflicting 1 of every 3500 males. Patients with DMD experience progressive muscle degeneration and weakness and succumb to respiratory or cardiac failure by their early twenties. No treatment is currently available for DMD. Mutations in the dystrophin gene result in lack of a functional dystrophin protein in striated muscle, which induces instability in the muscle cell membrane leading to persistent muscle injury after contraction. We have previously created novel minidystrophin genes and demonstrated that adeno-associated virus (AAV)-mediated intramuscular delivery of the minigenes effectively ameliorated mdx dystrophic histopathology and led to normal cell membrane integrity for more than 1 year. In this paper, we investigated whether AAV-minidystrophin could also improve mdx muscle contractile function. Two-month-old adult male mdx mice, with established muscular dystrophy, were given a single-dose injection of an AAV-minidystrophin vector in the tibialis anterior (TA) muscle of one leg, with the untreated contralateral leg used as a control. The treated TA muscle showed both (1) a significant increase in isometric force generation and (2) a significant increase in resistance to lengthening activation-induced muscle force decrements. We conclude that AAV-minidystrophin gene treatment is effective in improving mdx muscle contractile function.
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PMID:Adeno-associated virus vector-mediated minidystrophin gene therapy improves dystrophic muscle contractile function in mdx mice. 1221 66

A 2-year-old girl presented with severe global developmental delay weakness, and an elevated serum creatine kinase level. Her muscle biopsy was consistent with an active dystrophy with absence of dystrophin in about half of the muscle fibers. Fluorescent in situ hybridization analysis showed her karyotype to be 46, X, delX p23.1-p21.1. This large deletion includes the dystrophin gene as well as the region involved in X-linked mental retardation. The genetic mechanism for the manifestation of both diseases is likely non-random inactivation of the X chromosome. To our knowledge, the combination of this dystrophinopathy in association with severe mental retardation has not been described in a girl.
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PMID:Mental retardation and early onset of weakness in a girl with a dystrophinopathy and a large Xp21-23 deletion. 1266 47

We describe a patient with somatic mosaicism of a point mutation in the dystrophin gene causing benign muscular dystrophy with an unusual asymmetrical distribution of muscle weakness and contractures. To our knowledge this is the first patient with asymmetrical weakness and contractures in an ambulatory patient with a dystrophinopathy.
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PMID:Somatic mosaicism of a point mutation in the dystrophin gene in a patient presenting with an asymmetrical muscle weakness and contractures. 1286 1

Several studies have recently highlighted the fact that the clinical involvement in females carrying a mutation in the dystrophin gene could be more frequent than usually thought, suggesting the need of a careful cardiac follow-up. Except for the classical chromosomal rearrangements, it was shown that a bias in the X chromosome inactivation process could be found in some affected females. We report two families illustrating different situations. The propositus of the first family, aged 32, presented with a proximal muscular weakness, increasing for three years, as well as elevated muscular enzymes in blood. Her brother suffered from classical Duchenne muscular dystrophy. Her mother was more severely affected, whereas her sister remained asymptomatic. A duplication of exons 3 to 7 of the dystrophin gene was found in all four patients. The affected carrier from the second family was a sporadic case. She has been suffering from proximal muscular weakness for six years. Muscle biopsy showed a mosaic pattern of the immunostaining using specific antidystrophin antibodies. A stop mutation was found in exon 52. Her ten year-old daughter, carrying the mutation, was asymptomatic. In both families, the inactivation profiles were in accordance with the clinical presentation. We discuss the different mechanisms that may lead to the inactivation bias in these patients, as well as the advantage and limits of using the X chromosome inactivation test as a tool for diagnosis and prognosis purpose in symptomatic carriers for dystrophinopathies.
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PMID:[Symptomatic carriers of dystrophinopathy with chromosome X inactivation bias]. 1367 20

We attempted to identify a mutation in dystrophin gene in a female patient who was suspected a Duchenne muscular dystrophy (DMD) carrier with muscle weakness of upper limbs and congestive heart failure. We examined the mutation hot spots in DMD gene, exon 3, 6, 8, 13, 17, 19, 43, 44, 45, 47, 48, 49, 50, 52, 60 by multiplex PCR which had been a diagnostic screening strategy, and detected an extra band in exon 43 product. We also detected an extra band in exon 43 products by SSCP analysis for detection of small mutations which could not be detected by multiplex PCR. As a result of sequencing a PCR product of an exon 43, we confirmed an allele having the insertion of a 2 base of AT in Intron42, which is described for the first time. Although we can not conclude that this insertion is responsible for DMD, but it may cause abnormal splicing. In carrier detection of DMD without genetic information of proband, it is difficult to detect mutations by multiplex PCR solely. Therefore, SSCP of PCR products are recommended to detect mutation in DMD carrier.
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PMID:[Detection of micro mutation in dystrophin gene of DMD female carrier]. 1528 61

Muscular dystrophy is defined as "a group of hereditary disorders with the major symptom of progressive muscle weakness due to muscle fiber degeneration and necrosis". After the discovery of the dystrophin gene and the gene product for Duchenne muscular dystrophy in 1986, there has been remarkable progress in the differential diagnosis and in understanding the pathogenetic mechanism of muscle fiber necrosis. With discoveries of genes responsible for many other disorders, the classification of muscular dystrophy has become more complicated; for instance, there are at least 15 diseases in the limb-girdle muscular dystrophy (LGMD) group, including the autosomal dominant forms, LGMD1A-1E and the recessive forms, LGMD2A-2I. Among them, gene defects in the sarcoglycan complex (sarcoglycanopathy) have been added to LGMD2C-2F. Sarcoglycanopathy seems to be rare in Japan since only 6-7% of LGMD patients had this defect. There are two major possible strategies in treating these patients. One is gene therapy, which is recently being investigated in the mdx mouse by using adenovirus-associated virus (AAV) vector inserted with a microdystrophin gene. Dr Takeda has reported favorable results in mdx mouse muscle with this method. Another is regeneration therapy using stem cells. There are many barriers to overcome to treat patients with stem cells isolated from bone marrow. The most difficult problem to solve is how to culture the stem cells to increase their numbers for application and how to introduce the normal dystrophin gene into these cells.
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PMID:[Muscular dystrophy: advances in research works and therapeutic trials]. 1565 26

A 33-year-old man with BMD manifesting severe mental retardation is reported. This patient has mild pseudohypertrophy in his calf muscles and showed an elevation of creatine kinase (CK) level in the serum (2215 IU/L). He was diagnosed as autistic at the age of three. His intellectual level was estimated to be two years old in social intelligence and four months old in speech ability at the age of 33. However his muscle strength remains within the normal range. All of his three siblings have similar symptoms, such as severe mental retardation and elevated CK level in the serum (1735-3641 IU/L) and lack apparent muscular weakness. Gene analyses by multiplex PCR and Southern blotting showed all of the siblings had the deletion of exon 4 in the dystrophin gene. Pathological findings of a muscle biopsy specimen showed a mild irregular dystrophin stain of the muscle surface membrane. This is a rare familial case of Becker muscular dystrophy manifesting severe mental retardation with scarce muscular weakness.
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PMID:[Four siblings with becker muscular dystrophy (BMD) manifesting severe mental retardation]. 1654 98

Muscular dystrophies are composed of a variety of genetic muscle disorders linked to different chromosomes and loci and associated with different gene mutations that lead to progressive muscle atrophy and weakness. Fukuyama congenital muscular dystrophy is frequently associated with partial and generalized epilepsy and congenital brain anomalies, including cobblestone complex and other neuronal migration defects. We report generalized convulsive epilepsy in a boy with normal brain magnetic resonance imaging and Duchenne muscular dystrophy with deletion of dystrophin gene, and we report absence epilepsy with normal brain magnetic resonance imaging in another boy with limb girdle muscular dystrophy with partial calpain deficiency. We, therefore, review coexisting muscular dystrophies and epilepsy in children. In addition to Fukuyama congenital muscular dystrophy, partial or generalized epilepsy has also been reported in the following types of muscular dystrophies, including Duchenne/Becker dystrophy, facioscapulohumeral dystrophy, congenital muscular dystrophy with partial and complete deficiency of laminin alpha2 (merosin) chain, and limb girdle muscular dystrophy with partial calpain deficiency.
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PMID:Coexisting muscular dystrophies and epilepsy in children. 1656 80

One cause of X-linked dilated cardiomyopathies is mutation of the dystrophin gene. We report the case of a young boy who suffered from dilated cardiomyopathy caused only by dystrophin-deficient cardiac muscle, but who did not present with any clinical signs of skeletal myopathy. Sequence analysis of the patient's dystrophin gene revealed the presence of a novel single point mutation at the first exon-intron boundary, inactivating the 5' splice site consensus sequence of the first intron. The lack of muscle weakness observed clinically can be explained by expression of the brain and Purkinje dystrophin isoforms in skeletal muscle.
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PMID:Novel mutation in splicing donor of dystrophin gene first exon in a patient with dilated cardiomyopathy but no clinical signs of skeletal myopathy. 1771 88


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