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: UNIPROT:O75695 (X-linked recessive)
2,041 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Duchenne muscular dystrophy (DMD) is the most common hereditary neuromuscular disease. It is inherited as an X-linked recessive trait in which males show clinical manifestations. In some rare cases, the disease can also be manifested in females. The aim of the present study was to determine the molecular alteration in two cases of nonrelated DMD symptomatic carriers with no previous history of DMD. Multiplex PCR is commonly used to search for deletion in the DMD gene of affected males. This method could not be used in females because the normal X chromosome masks the deletion of the mutated one. Therefore, we used a set of seven highly polymorphic dinucleotide (CA)(n) repeat markers that lie within the human dystrophin gene. The deletions were evidenced by hemizygosity of the loci under study. We localized a deletion in the locus 7A (intron 7) on the maternal X chromosome in one case, and a deletion in the region of introns 49 and 50 on the paternal X chromosome in the other. The use of microsatellite genotyping within the DMD gene enables the detection of the mutant allele in female carriers. It is also a useful method to provide DMD families with more accurate genetic counseling.
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PMID:Direct deletion analysis in two Duchenne muscular dystrophy symptomatic females using polymorphic dinucleotide (CA)n loci within the dystrophin gene. 1268 16

Duchenne muscular dystrophy is an X-linked recessive disorder, primarily characterized by progressive muscle weakness and wasting. The disease results from the absence of dystrophin, however the precise molecular mechanisms leading to muscle pathology are poorly understood. Dystrophic muscles undergo increased oxidative stress and altered calcium homeostasis, which may contribute to myofiber loss by triggering both necrosis and apoptosis. Recent studies have identified ARC (apoptosis repressor with caspase recruitment domain) as an abundant protein in human muscle that can inhibit both hypoxia and caspase-8-induced apoptosis as well as protect cells from oxidative stress. To explore a potential role for ARC in protecting muscle fibers from dystrophic breakdown, we have cloned and characterized murine ARC and studied its expression in normal and dystrophic mouse muscle. ARC is expressed at high levels in striated muscle and displays fiber-type restricted expression patterns. ARC expression levels are normal in dystrophic mdx mice, although the intracellular localization pattern of ARC is slightly altered compared with normal muscles. Overexpression of ARC in transgenic mdx mice failed to alleviate the dystrophic pathology in skeletal muscles, suggesting that misregulation of the molecular pathways regulated by ARC does not significantly contribute to myofiber death.
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PMID:Characterization of ARC, apoptosis repressor interacting with CARD, in normal and dystrophin-deficient skeletal muscle. 1464 4

Adenoviral (Ad) vector-mediated gene delivery of normal, full-length dystrophin to skeletal muscle provides a promising strategy for the treatment of Duchenne muscular dystrophy (DMD), an X-linked recessive, dystrophin-deficient muscle disease. Studies in animal models suggest that successful DMD gene therapy by Ad vector-mediated gene transfer would be precluded by cellular and humoral immune responses induced by vector capsid and transgene proteins. To address the immunity induced by Ad vector-mediated dystrophin gene delivery to dystrophic muscle, we developed high-capacity adenoviral (HC-Ad) vectors expressing mouse dystrophin driven by the muscle creatine kinase promoter (AdmDys) and mCTLA4Ig (AdmCTLA4Ig) individually, or together from one vector (AdmCTLA4Ig/mDys). We found stable expression of dystrophin protein in the tibialis anterior muscles of mdx mice, coinjected with AdmCTLA4Ig and AdmDys, or injected alone with AdmCTLA4Ig/mDys, whereas the expression of dystrophin protein in the control group coinjected with AdmDys and an empty vector decreased by at least 50% between 2 and 8 weeks after administration. Additionally, we observed reductions in Ad vector-induced Th1 and Th2 cytokines, Ad vector-specific cytotoxic T lymphocyte activation and neutralizing anti-Ad antibodies in both experimental groups that received a mCTLA4Ig-expressing vector as compared to the control group. This study demonstrates that the coexpression of mCTLA4Ig and dystrophin in skeletal muscle provided by HC-Ad vector-mediated gene transfer can provide stable expression of dystrophin in immunocompetent, adult mdx mouse muscle and applies a potentially powerful strategy to overcome adaptive immunity induced by Ad vector-mediated dystrophin gene delivery toward the ultimate goal of treatment for DMD.
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PMID:CTLA4Ig delivered by high-capacity adenoviral vector induces stable expression of dystrophin in mdx mouse muscle. 1526 13

1. Duchenne muscular dystrophy (DMD) is a severe disease of skeletal muscle, characterized by an X-linked recessive inheritance and a lack of dystrophin in muscle fibres. It is associated with progressive and severe wasting and weakness of nearly all muscles and premature death by cardiorespiratory failure. 2. Studies investigating the susceptibility of dystrophic skeletal muscles to contraction-mediated damage, especially after lengthening actions where activated muscles are stretched forcibly, have concluded that dystrophin may confer protection to muscle fibres by providing a mechanical link between the contractile apparatus and the plasma membrane. In the absence of dystrophin, there is disruption to normal force transmission and greater stress placed upon myofibrillar and membrane proteins, leading to muscle damage. 3. Contraction protocols (involving activation and stretch of isolated muscles or muscle fibres) have been developed to assess the relative susceptibility of dystrophic (and otherwise healthy) muscles to contraction-induced injury. These protocols have been used successfully to determine the relative efficacy of different (gene, cell or pharmacological) interventions designed to ameliorate or cure the dystrophic pathology. More research is needed to develop specific 'contraction assays' that will assist in the evaluation of the clinical significance of different therapeutic strategies for muscular dystrophy.
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PMID:Role of contraction-induced injury in the mechanisms of muscle damage in muscular dystrophy. 1529 51

Mdx mouse, the animal model of Duchenne muscular dystrophy, lacks dystrophin and develops an X-linked recessive inflammatory myopathy characterized by degeneration of skeletal muscle fibers and connective tissue replacement. The present work aimed to assess whether gender dimorphism in mdx mice would influence skeletal muscle pathology at ages corresponding to main histological changes in the microenvironment of muscular tissue: myonecrosis, regeneration, and fibrosis. At the height of myonecrosis (6 weeks postnatal), skeletal muscles of male mdx mice showed increased sarcolemmal permeability, numerous inflammatory foci, and marked deposition of the extracellular matrix components (ECM) type I collagen and laminin. In contrast, age-matched mdx females showed mild ECM deposition, discrete myonecrosis, but increased numbers of regenerating fibers expressing the satellite cell marker NCAM. In contrast ovariectomized mdx females showed decreased numbers of regenerating fibers. Older (24 and 48 weeks postnatal) mdx females showed extensive fibrosis with increased sarcolemmal permeability and marked deposition of ECM components than corresponding males. These results suggest a role for female hormones in the control of myonecrosis probably by promoting regeneration of muscular tissue and mitigating inflammation especially at ages under the critical influence of sex hormones.
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PMID:Gender dimorphism influences extracellular matrix expression and regeneration of muscular tissue in mdx dystrophic mice. 1545 19

OTC deficiency, the most common urea cycle defect, is transmitted as a partially dominant X-linked trait. The most severe form of the disease, however, is usually restricted to males. We report on monozygotic female twins with severe neonatal-onset OTC deficiency and a de novo balanced reciprocal translocation t(X;5)(p21.1;q11). Disruption of the OTC gene on the derivative X-chromosome was confirmed by FISH analysis. Consistent inactivation of the normal X could be demonstrated by RGB staining. Manifestation of X-linked recessive disorders in females due to a balanced reciprocal X-autosome translocation has previously been described in Duchenne muscular dystrophy and several other disorders but not in OTC deficiency. This report emphasizes the importance of chromosome analysis in any female manifesting severe OTC deficiency.
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PMID:Severe, neonatal-onset OTC deficiency in twin sisters with a de novo balanced reciprocal translocation t(X;5)(p21.1;q11). 1557 16

We describe the peripartum anaesthetic management of a 36-year-old woman who was a manifesting carrier of Duchenne muscular dystrophy. Duchenne muscular dystrophy is an X-linked recessive disorder affecting young males associated with severe complications during anaesthesia if depolarising neuromuscular blocking drugs and volatile agents are used. A manifesting carrier is a heterozygous female who demonstrates the disease in a milder form than in males. This probably occurs because of skewed X-inactivation. We planned to establish regional anaesthesia should an operation be necessary during labour or delivery and to use propofol total intravenous anaesthesia and rocuronium if general anaesthesia became unavoidable. At 37 weeks, the woman went into spontaneous labour, but fetal distress necessitated caesarean section for which combined spinal-epidural anaesthesia was used.
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PMID:Anaesthetic management during labour of a manifesting carrier of Duchenne muscular dystrophy. 1562 43

Glycerol kinase deficiency is a rarely diagnosed X-linked recessive disorder which occurs as a complex form together with the adrenal hypoplasia congenita (AHC) or with Duchenne muscular dystrophy (DMD) or as an isolated form either symptomatic or asymptomatic. We report the case of a male adult who had pseudo-hypertriglyceridemia (falsely elevated triglycerides of 552 mg/dl) refractory to lipid-lowering therapy for more than 15 years. Further investigations revealed an isolated, asymptomatic glycerol kinase deficiency. Using polymerase chain reaction and direct DNA sequencing, a novel missense mutation Gly280Ala in the Xp21.3 glycerol kinase gene was found. Comparison between human and E.coli glycerol kinase showed that the mutation affects a highly conserved amino acid in an ATP-binding domain in the active centre. This mutation is assumed to destabilize a hydrogen bond between ligand and enzyme resulting in a reduced activity of glycerol kinase and therefore in hyperglycerolemia.
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PMID:Novel mutation (Gly280Ala) in the ATP-binding domain of glycerol kinase causes severe hyperglycerolemia. 1602 1

Duchenne muscular dystrophy (DMD) is inherited in an X-linked recessive pattern and occurs at an incidence of 1 in 3500 male births, which means that it is a so-called "orphan" or rare disease (frequency < 1/2000). Yet it is one of the most frequent myopathies and is observed in all populations. We review here the spectacular advances made in our understanding of this disease since the identification in 1986 of the responsible gene. This gene encodes a subsar-colemmal component of the cytoskeleton, dystrophin. We consider the impact of this discovery on molecular diagnosis at the protein and DNA levels. Despite the time that has passed since, the discovery of the gene has not led to any treatment, and we review the therapeutic prospect.
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PMID:[Molecular bases of dystrophinopathies]. 1611 58

Duchenne muscular dystrophy (DMD) is an X-linked recessive disorder. Here, we report a novel mechanism for the occurrence of DMD in females. In a Vietnamese DMD girl, conventional PCR amplification analysis disclosed a deletion of exons 12-19 of the dystrophin gene on Xp21.2, with a karyotype of 46, XY. Furthermore, a novel mutation in the androgen-receptor gene on Xq11.2-q12 was identified in this girl, which led to male pseudohermaphroditism. Co-occurrence of mutations of these two genes constitutes a novel mechanism underlying female DMD.
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PMID:Co-occurrence of mutations in both dystrophin- and androgen-receptor genes is a novel cause of female Duchenne muscular dystrophy. 1652 18


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