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Query: UMLS:C0026850 (
muscular dystrophy
)
5,870
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fukuyama-type congenital muscular dystrophy (FCMD), one of the most common autosomal recessive disorders in the Japanese population, is characterized by congenital
muscular dystrophy
in combination with cortical dysgenesis (micropolygyria). Recently we identified on chromosome 9q31 the gene responsible for FCMD, which encodes a novel 461 amino acid protein that we have termed fukutin. Most FCMD-bearing chromosomes (87%) derive from a single ancestral founder, whose mutation consisted of a 3-kb retrotransposal insertion in the 3' noncoding region of the fukutin gene. Two independent point mutations causing premature termination confirmed that that this gene is responsible for FCMD. FCMD is the first human disease to be caused by an ancient retrotransposal integration. Fukutin contains an amino-terminal signal sequence, which together with results from transfection experiments suggests that it is an
extracellular protein
. Discovery of the FCMD gene represents an important step toward greater understanding of the pathogenesis of muscular dystrophies and also of normal brain development.
...
PMID:Fukuyama-type congenital muscular dystrophy: the first human disease to be caused by an ancient retrotransposal integration. 1068 17
Fukuyama congenital muscular dystrophy is one of the most common autosomal recessive disorders in the Japanese population, characterized by congenital
muscular dystrophy
in combination with cortical dysgenesis (micropolygyria). Recently, we have identified the gene responsible for fukuyama congenital
muscular dystrophy
on 9q31, which encodes a novel 461-amino-acid protein termed fukutin. Most Fukuyama congenital muscular dystrophy-bearing chromosomes are derived from a single ancestral founder (87%), and a 3 kb-retrotransposal insertion into the 3' untranslated region of this gene was found to be a founder mutation. Two independent point mutations causing premature termination confirmed that that this gene is responsible for Fukuyama congenital muscular dystrophy. Fukuyama congenital muscular dystrophy is the first human disease to be caused by an ancient retrotransposal integration. Fukutin contains an amino-terminal signal sequence, which together with results from transfection experiments suggests that it is an
extracellular protein
. Discovery of the Fukuyama congenital muscular dystrophy gene represents an important step toward greater understanding of the pathogenesis of muscular dystrophies and also of normal brain development.
...
PMID:The Fukuyama congenital muscular dystrophy story. 1073 60
Fukuyama-type congenital muscular dystrophy (FCMD), a relatively common autosomal recessive disorder in Japan, is characterized by severe congenital
muscular dystrophy
in combination with cortical dysgenesis (polymicrogyria). The gene responsible for FCMD encodes a novel protein, fukutin, which is likely to be an
extracellular protein
. Pathological study of brain tissue from FCMD fetuses revealed frequent breaks in the glia limitans and basement membrane complex. Disruption of the basal lamina in FCMD muscle was also seen. Thus, structural alteration of the basal lamina appears to play a key role in the pathophysiology of FCMD. To investigate the role of fukutin in brain anomalies, we examined fukutin mRNA expression in the human brain. Northern blot and RT-PCR analysis revealed that the fukutin gene is expressed at similar levels in fetal and adult brain, whereas its expression is much reduced in FCMD brains. Tissue in situ hybridization analysis revealed fukutin mRNA expression in the migrating neurons, including Cajar-Retzius cells and adult cortical neurons, as well as in hippocampal pyramidal cells and cerebellar Purkinje cells. However, we observed no expression in the glia limitans, the subpial astrocytes (which contribute to basement membrane formation) or other glial cells. In the FCMD brain, neurons in regions with no dysplasia showed fair expression, whereas transcripts were nearly undetectable in the overmigrated dysplastic region. These observations suggest that fukutin function may influence neuronal migration itself rather than formation of the basement membrane. Furthermore, differences in mRNA levels among neurons in early developmental stages may partially differentiate normal and abnormal regions.
...
PMID:Neuronal expression of the fukutin gene. 1111 53
Fukuyama-type congenital muscular dystrophy (FCMD) is characterized by congenital
muscular dystrophy
in combination with cortical dysgenesis and ocular abnormality. We identified on chromosome 9 q31 the gene for FCMD, which encodes a novel 461-amino-acid protein (fukutin). Most FCMD-bearing chromosomes have been derived from a single ancestral founder, whose mutation consisted of a 3-kb retrotransposal insertion in the 3' non-coding region of the fukutin gene. Some point mutations causing premature termination were found. Amino acid sequence and transfection experiments suggest that fukutin may be an
extracellular protein
. Pathological study on the brain of the FCMD fetuses revealed that the glia-limitans and basement-membrane complex had frequent breaks. Because of this, developing neurons were shown to overmigrate in the cerebrum. Electron microscopy of the skeletal muscle in FCMD showed that the basal lamina has a disrupted appearance. Thus, a structural alteration of the basal lamina appears to play a key role in the pathophysiology of FCMD. The spectrum of clinical variability of FCMD is much wider than recognized previously. Point mutations have been seen to render the FCMD phenotype rather severe. FCMD could give rise to only in the Japanese who have a milder retrotransposon mutation.
...
PMID:[Fukuyama-type congenital muscular dystrophy]. 1146 84
Dystroglycan is a key complex between basal lamina laminin, extracellularly and membrano-cytoskeleton, intracellularly. The damage of this linkage is turned out to cause muscular dystrophies. Dystroglycan knockout is lethal. Dystroglycan-associated intracellular proteins such as dystrophin, dystrobrevin, sarcoglycans, plectin and caveolin-3 are responsible for causing severe (Duchenne type) and moderate forms (Becker, LGMDs). Laminin, dystroglycan-binding
extracellular protein
, is deficient in the most severe form of congenital
muscular dystrophy
with normal intelligence and eye. Recently, a remarkable progress is made in most severe forms of congenital
muscular dystrophy
with anomalies of brain and eye such as Fukuyama type (Japan) and muscle-eye-brain disease (Finland). The gene product for Fukuyama type, fukutin, belongs to a family of glycosylation enzymes in bacteria and yeast. Since alpha-dystroglycan contains 14-15 o-glycans, ser/thr-mannose 2-1 GlcNAc 4-1 Gal 3-2 Sial in the middle third mucin-domain and the sial-o-glycan is essential for laminin-binding, and since alpha-dystroglycan is defective in Fukuyama type sarcolemma with anti both sugar moiety- and peptide-antidodies, defective fukutin causes incomplete o-glycosylation of alpha-dystroglycan. In '02, it is clarified that a glycosylation enzyme, POMGnT1 which modifies GlcNAc onto ser/thr-mannose, is defective in 6 MEB patients. The loss of the enzyme activity is turned out to lose alpha-dystroglycan from sarcolemma of MEB. These data strongly suggests that o-glycosylation defect of alpha-dystroglycan causes the most severe congenital
muscular dystrophy
such as Fukuyama type, MEB and Walker Warburg syndrome.
...
PMID:[Dystroglycan linkage and muscular dystrophy]. 1278 74
Dystroglycans are essential transmembrane adhesion receptors for laminin. Alpha-dystroglycan is a highly glycosylated
extracellular protein
that interacts with laminin in the extracellular matrix and the transmembrane region of beta-dystroglycan. Beta-dystroglycan, via its cytoplasmic tail, interacts with dystrophin and utrophin and also with the actin cytoskeleton. As a part of the dystrophin-glycoprotein complex of muscles, dystroglycan is also important in maintaining sarcolemmal integrity. Mutations in dystrophin that lead to Duchenne muscular dystrophy also lead to a loss of dystroglycan from the sarcolemma, and chimaeric mice lacking muscle dystroglycan exhibit a severe
muscular dystrophy
phenotype. Using yeast two-hybrid analysis and biochemical and cell biological studies, we show, in the present study, that the cytoplasmic tail of beta-dystroglycan interacts directly with F-actin and, furthermore, that it bundles actin filaments and induces an aberrant actin phenotype when overexpressed in cells.
...
PMID:Direct interaction of beta-dystroglycan with F-actin. 1289 61
Mutations in fukutin-related protein (FKRP) give rise to mild and more severe forms of
muscular dystrophy
. FKRP patients have reduced glycosylation of the
extracellular protein
dystroglycan, and FKRP itself shows sequence similarity to glycosyltransferases, implicating FKRP in the processing of dystroglycan. However, FKRP localization is controversial, and no FKRP complexes are known, so any FKRP-dystroglycan link remains elusive. Here, we demonstrate a novel FKRP localization in vivo; in mouse, both endogenous and recombinant FKRP are present at the sarcolemma. Biochemical analyses revealed that mouse muscle FKRP and dystroglycan co-enrich and co-fractionate, indicating that FKRP coexists with dystroglycan in the native dystrophin-glycoprotein complex. Furthermore, FKRP sedimentation shifts with dystroglycan in disease models involving the dystrophin-glycoprotein complex, and sarcolemmal FKRP immunofluorescence mirrors that of dystroglycan in
muscular dystrophy
mice, suggesting that FKRP localization may be mediated by dystroglycan. These data offer the first evidence of an FKRP complex in muscle and suggest that FKRP may influence the glycosylation status of dystroglycan from within the sarcolemmal dystrophin-glycoprotein complex.
...
PMID:Fukutin-related protein associates with the sarcolemmal dystrophin-glycoprotein complex. 1745 35
