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)

Duchenne's muscular dystrophy (DMD) is a common X-linked neuromuscular disease which predominantly affects skeletal and cardiac muscle. The absence of dystrophin, the metabolic defect that causes DMD, leads to a peculiar cardiomyopathy which initially affects the posterior wall of the left ventricle. We review evidence that dystrophin deficient myocytes become dystrophic in order of increasing axial stress upon the myocyte. Thus, dystrophin's function may be that of physically reinforcing the sarcolemma against the axial forces exerted upon the myocyte.
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PMID:The cardiomyopathy of Duchenne's muscular dystrophy and the function of dystrophin. 850 96

Duchenne muscular dystrophy (DMD) is an X-linked progressive muscle disorder which is caused by a defect of dystrophin, a 427-kDa muscle cell membrane protein. One of the possible means of DMD therapy is to express the dystrophin gene in patients' muscles. In this study, full length dystrophin cDNA was expressed in mdx (muscular dystrophy model) mouse muscle using the hemagglutinating virus of Japan (HVJ)-liposome method. With the HVJ-liposome method, the lacZ reporter genes were expressed in 50-80% of cultured mdx mouse myoblasts, which suggested its potential usefulness for an in vivo gene study. Three expression vectors containing human full length dystrophin cDNA driven by Rous sarcoma virus (RSV), mouse leukemia virus, or human dystrophin promoters, were used. HVJ-liposomes containing these plasmids were directly injected into mdx mouse quadriceps muscle. The highest efficiency of expression of dystrophin was in 26% of the muscle fibers at the injected site on day 3 after HVJ-liposome injection of the RSV-based vector. The expression was decreased on day 10. The study thus demonstrates the feasibility of full length human dystrophin cDNA transfer and dystrophin expression using HVJ-liposomes in vivo.
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PMID:Expression of full-length human dystrophin cDNA in mdx mouse muscle by HVJ-liposome injection. 878 5

Recent advances in molecular genetics research have revolutionised our understanding of the childhood muscular dystrophies. The first breakthrough came in 1987 with the identification of the gene for dystrophin, the protein that is abnormal in X-linked Duchenne muscular dystrophy. Dystrophin is bound to a complex of proteins in the muscle membrane, and primary abnormalities of these proteins have now been identified as the cause of some autosomally inherited forms of muscular dystrophy. A group of transmembrane proteins known as alpha- (adhalin) beta-, gamma- and delta-sarcoglycan are deficient in autosomal recessive limb-girdle muscular dystrophy, and the extracellular matrix protein merosin (alpha2-laminin), is deficient in a subset of patients with congenital muscular dystrophy. Identification of primary deficiencies in these 'dystrophin associated proteins' will result in improved diagnostic accuracy, more accurate genetic counselling and, in some cases, the availability of prenatal diagnosis.
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PMID:Recent advances in diagnosis of the childhood muscular dystrophies. 925 92

Dystrophin is a protein product of the X-linked gene mutation that is responsible for Duchenne and Becker muscular dystrophies. The protein binds actin and associates with dystrophin-glycoprotein complex to link the cytoskeleton to the extracellular matrix. Defects in the components of the dystrophin-glycoprotein complex are responsible for several phenotypes of muscular dystrophy.
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PMID:Functions of dystrophin and dystrophin associated proteins. 933 Aug 92

Emery-Dreifuss muscular dystrophy is an X-linked neuromuscular disorder caused by defects in the STA gene on Xq28, which codes for a nuclear protein named emerin. Affected patients usually present in early adolescence with scapulo-peroneal muscle weakness and wasting, and contractures of the tendo Achilles, elbows and paraspinal muscles, resulting in spine rigidity. We present here a case of Emery-Dreifuss muscular dystrophy with an unusually severe, early presentation. He presented at 2.5 years with predominantly proximal weakness and mild equinovarus deformity of the right foot. Serum creatine kinase activity was elevated (1994 IU/I) and a muscle biopsy at the age of 4 years showed marked dystrophic abnormalities. Normal expression of dystrophin, and no detectable deletion in the corresponding gene, excluded a diagnosis of Duchenne muscular dystrophy. Similarly, normal expression of alpha-sarcoglycan made a limb-girdle muscular dystrophy caused by a defect in a sarcoglycan unlikely. Several years later, examination of the proband's maternal cousin, aged 14 years, suggested Emery-Dreifuss muscular dystrophy. This was confirmed in both affected boys by the absence of emerin in muscle and leucocytes, and identification of a mutation in exon 4 of the STA gene. Carrier status in both mothers was also confirmed by mutational and protein analysis. Emery-Dreifuss muscular dystrophy should therefore be considered in the differential diagnosis of cases of early onset muscular dystrophy, even in the absence of the typical clinical features.
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PMID:Early presentation of X-linked Emery-Dreifuss muscular dystrophy resembling limb-girdle muscular dystrophy. 960 59

X-linked congenital adrenal hypoplasia (AHC) is a rare developmental disorder of the human adrenal cortex and is caused by deletion or mutation of the DAX-1 gene, a recently discovered member of the nuclear hormone receptor superfamily. Hypogonadotropic hypogonadism is frequently associated with AHC. AHC occurs as part of a contiguous gene syndrome together with glycerol kinase deficiency (GKD) and Duchenne's muscular dystrophy. The present series, collected over the past 2 decades, includes 18 AHC boys from 16 families: 4 with AHC, GKD, and Duchenne's muscular dystrophy; 2 with AHC and GKD; and 12 with AHC (5 young adults with hypogonadotropic hypogonadism). Most of the boys presented with salt wasting and hyperpigmentation during the neonatal period. Plasma steroid determinations performed in the first weeks of life often showed confusing results, probably caused by steroids produced in the neonates' persisting fetocortex. Aldosterone deficiency usually preceded cortisol deficiency, which explains why the patients more often presented with salt-wasting rather than with hypoglycemic symptoms. An ACTH test was often necessary to detect cortisol deficiency in the very young infants. In some patients, serial testing was necessary to establish the correct diagnosis. In 4 boys studied during the first 3 months after birth, we found pubertal LH, FSH, and testosterone plasma levels indicating postnatal transient activation of the hypothalamic-pituitary-gonadal axis as in normal boys. Previous studies have shown that the DAX-1 gene is deleted in the AHC patients with a contiguous gene syndrome and is mutated in nondeletion patients. Most of the point mutations identified in AHC patients were frameshift mutations and stop mutations. In the 15 patients available for molecular analysis of the DAX-1 gene, there were large deletions in 6 patients and point mutations in another 7 patients. All of the point mutations identified in the present study resulted in a nonfunctional truncated DAX-1 protein. Two brothers with primary adrenal insufficiency and a medical history that strongly suggested AHC had no mutation in the DAX-1 gene. Thus, additional, as yet unknown genes must play a part in normal adrenal cortical development.
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PMID:Congenital adrenal hypoplasia: clinical spectrum, experience with hormonal diagnosis, and report on new point mutations of the DAX-1 gene. 970 29

X-linked Emery-Dreifuss muscular dystrophy (EMD) is caused by mutations in the emerin gene. Since the emerin gene is ubiquitously expressed and since all EMD mutations published so far should be detectable by an RNA-based mutation assay, we have designed a protein truncation test for emerin. To facilitate the detection of mutations in the translation initiation site, reported for several EMD-cases, the standard tailed forward PTT-primer had to be modified. The effectiveness of the assay was established by a mutation scan in four EMD-patients. Two patients could be shown to carry emerin mutations, one affecting the ATG translation initiation codon. The PTT-assay did not detect a mutation in the two other patients. Since an immunohistochemical analysis of patient-derived cells revealed normal emerin levels, these patients are thus affected by another muscular dystrophy, most likely autosomal dominant EMD.
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PMID:A protein truncation test for Emery-Dreifuss muscular dystrophy (EMD): detection of N-terminal truncating mutations. 1039 52

Emerin encoded by the STA gene is the first nuclear protein linked with a muscular dystrophy. Emerin is a 34 kDa, predominantly hydrophilic protein with a single hydrophobic region supposed to serve as a transmembrane domain. It was classified as a type II integral membrane protein localized at the inner nuclear membrane/nuclear lamina with an ubiquitous tissue distribution. It is speculated that emerin is required for the stability and normal function of rigorously moving nuclei in skeletal muscle and heart. During mitosis, emerin is cell-cycle-dependent phosphorylated and shows stage-dependent changes in distribution and localization suggesting that it plays a role in re-assembly of nuclear membranes. Mutations of the emerin gene have been associated with X-linked Emery-Dreifuss muscular dystrophy clinically defined by early joint contractures, progressive muscle weakness, and cardiomyopathy. Hopefully, identification of the protein defect may promote new therapeutic strategies concerning muscle fiber development and stability.
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PMID:Emerin. 1053 81

The molecular genetic basis of a large group of monogenic hereditary neurological diseases is analyzed. Emphasis is laid on different types of mutations causing Huntington's chorea, autosomal dominant ataxias, Friedreich's disease, dopa-responsive and nondopa-responsive forms of torsion dystonia: the frequencies of these mutations and their molecular characteristics have been first investigated in the Russian population. Relationships between particular genotypes and various clinical variants of these disorders are analyzed. Genetic loci for two novel hereditary diseases of the nervous system, such as X-linked congenital cerebellar hypoplasia and an atypical form of autosomal recessive muscular dystrophy are characterized. Nosological entities of these clinical forms are substantiated in accordance with molecular genetic findings. DNA diagnostic techniques have been developed, which allows medical genetic counselling and prevention of relapses to be made in genetically burden families.
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PMID:[Molecular analysis of hereditary nervous system diseases]. 1057 63

The nuclear lamina is a protein meshwork lining the nucleoplasmic face of the inner nuclear membrane and represents an important determinant of interphase nuclear architecture. Its major components are the A- and B-type lamins. Whereas B-type lamins are found in all mammalian cells, A-type lamin expression is developmentally regulated. In the mouse, A-type lamins do not appear until midway through embryonic development, suggesting that these proteins may be involved in the regulation of terminal differentiation. Here we show that mice lacking A-type lamins develop to term with no overt abnormalities. However, their postnatal growth is severely retarded and is characterized by the appearance of muscular dystrophy. This phenotype is associated with ultrastructural perturbations to the nuclear envelope. These include the mislocalization of emerin, an inner nuclear membrane protein, defects in which are implicated in Emery-Dreifuss muscular dystrophy (EDMD), one of the three major X-linked dystrophies. Mice lacking the A-type lamins exhibit tissue-specific alterations to their nuclear envelope integrity and emerin distribution. In skeletal and cardiac muscles, this is manifest as a dystrophic condition related to EDMD.
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PMID:Loss of A-type lamin expression compromises nuclear envelope integrity leading to muscular dystrophy. 1057 12


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