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Query: UMLS:C0026850 (muscular dystrophy)
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Fukuyama-type congenital muscular dystrophy (FCMD), one of the most common autosomal recessive disorders in Japan (incidence is 0.7-1.2 per 10,000 births), is characterized by congenital muscular dystrophy associated with brain malformation (micropolygria) due to a defect in the migration of neurons. We previously mapped the FCMD gene to a region of less than 100 kilobases which included the marker locus D9S2107 on chromosome 9q31. We have also described a haplotype that is shared by more than 80% of FCMD chromosomes, indicating that most chromosomes bearing the FCMD mutation could be derived from a single ancestor. Here we report that there is a retrotransposal insertion of tandemly repeated sequences within this candidate-gene interval in all FCMD chromosomes carrying the founder haplotype (87%). The inserted sequence is about 3 kilobases long and is located in the 3' untranslated region of a gene encoding a new 461-amino-acid protein. This gene is expressed in various tissues in normal individuals, but not in FCMD patients who carry the insertion. Two independent point mutations confirm that mutation of this gene is responsible for FCMD. The predicted protein, which we term fukutin, contains an amino-terminal signal sequence, which together with results from transfection experiments suggests that fukutin is a secreted protein. To our knowledge, FCMD is the first human disease to be caused by an ancient retrotransposal integration.
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PMID:An ancient retrotransposal insertion causes Fukuyama-type congenital muscular dystrophy. 969 Apr 76

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 which we have termed fukutin. Most FCMD-bearing chromosomes examined to date (87%) 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. FCMD is the first human disease known to be caused primarily by an ancient retrotransposal integration. We under-took a systematic analysis of the FCMD gene in 107 unrelated patients, and identified four novel non-founder mutations in five of them: one missense, one nonsense, one L1 insertion and a 1 bp insertion. The frequency of severe phenotypes, including Walker-Walberg syndrome-like manifestations such as hydrocephalus and microphthalmia, was significantly higher among probands who were compound heterozygotes carrying a point mutation on one allele and the founder mutation on the other, than it was among probands who were homozygous for the 3 kb retrotransposon. Remarkably, we detected no FCMD patients with non-founder (point) mutations on both alleles of the gene, and suggest that such cases might be embryonic-lethal. This could explain why few FCMD cases are reported in non-Japanese populations. Our results provided strong evidence that loss of function of fukutin is the major cause of FCMD, and appeared to shed some light on the mechanism responsible for the broad clinical spectrum seen in this disease.
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PMID:Novel mutations and genotype-phenotype relationships in 107 families with Fukuyama-type congenital muscular dystrophy (FCMD). 1054 11

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.
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PMID:Fukuyama-type congenital muscular dystrophy: the first human disease to be caused by an ancient retrotransposal integration. 1068 17

New discoveries have dramatically changed the way we approach and think about patients with childhood muscular dystrophies. An aura of order and organization seems to be at hand for a group of diseases which previously seemed endlessly heterogeneous. We have learned that young boys and girls with proximal muscle weakness, large calves and elevated serum CK may have any one of a number of closely connected disorders which affect a complex of interacting proteins of the dystrophin-glycoprotein complex. This complex links the intracellular cytoskeleton to the extracellular matrix. Patients with Duchenne and Becker dystrophies lack dystrophin, while some of the limb girdle muscular dystrophies (an archaic term) are deficient in sarcoglycans and other proteins. The concept of interrelated disorders extends to the previously orphaned distal muscular dystrophies, or distal myopathies, as they are often called. A surprise finding is that the C. elegans protein, dysferlin, is conserved and expressed in man. We know little of the function of this protein in human primates, but its loss in muscle has brought seemingly disparate disorders together, since both a form of LGMD (2B) and distal myopathy (Miyoshi myopathy) are deficient in this same gene product. The congenital muscular dystrophies are also well-entrenched in our expanding concepts of orderliness of disease. The defect in the laminin-alpha2 chain, a direct ligand to the dystrophin-glycoprotein complex, causes a form of muscular dystrophy which affects infants. Another variant of congenital muscular dystrophy is deficient the integrin alpha7, an important laminin receptor. Finally, in Fukuyama congenital muscular dystrophy, the deficient fukutin gene product may also be linked to the basal lamina, permitting overmigration of neuronal cells which lead to micropolygyria in the brain, and at the same time cause basal lamina defects in the extracellular matrix of skeletal muscle, which leads to muscular dystrophy. As we approach the millennium, those of us who have seen the transition from the pre-molecular to the molecular era of myology know that we leave behind a great legacy of chaos (no great loss), replaced by a foundation for conceptual organization which will serve to establish new roots for research as well as for the enriched practice of medicine. The future looks bright for our field and our patients!
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PMID:The childhood muscular dystrophies: making order out of chaos. 1071 85

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.
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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.
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PMID:Neuronal expression of the fukutin gene. 1111 53

Fukuyama-type congenital muscular dystrophy (FCMD) is an autosomal recessive severe muscular dystrophy in combination with cerebral cortical dysplasia. Previously, we identified the gene responsible for FCMD, termed fukutin, through positional cloning. In this study, we have sequenced 131892 bp of genomic DNA in the region of the fukutin gene on chromosome 9q31 and obtained its complete genomic structure. The fukutin genomic sequence spans approximately 100 kb and is organized into 10 exons (41-6067 bp) and nine introns (1841-21460 bp). Using these sequence data, we have identified three novel fukutin mutations in FCMD patients. We have also located a putative TATA box in the flanking 5' region and identified numerous alternatively spliced fukutin mRNA transcripts. Analysis of expressed sequence tag clusters within the region revealed two novel genes upstream of the fukutin gene. These data provide fundamental information to support detailed genetic and functional analyses of the fukutin gene.
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PMID:Structural organization, complete genomic sequences and mutational analyses of the Fukuyama-type congenital muscular dystrophy gene, fukutin. 1116 48

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.
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PMID:[Fukuyama-type congenital muscular dystrophy]. 1146 84

Mutations in the LMNA gene, which encodes nuclear lamins A and C, underlie both Emery-Dreifuss muscular dystrophy (EMD2) and Dunnigan-type familial partial lipodystrophy (FPLD). This indicates that one gene can cause different phenotypes characterized by tissue degeneration. The gene for one form of Berardinelli-Seip-type congenital total lipodystrophy (BSCL) has been mapped to chromosome 9q34. Based on the observation that one gene caused both FPLD and EMD2, we considered that a known gene for muscular dystrophy at or near the BSCL locus on chromosome 9q would be an appropriate candidate for BSCL. The gene encoding fukutin, which is mutated in Fukuyama congenital muscular dystrophy has been mapped to 9q31. We thus developed amplification primers for the coding regions of the fukutin gene. We found no putative disease mutations, but through screening of diseased and normal subjects, we identified three novel single nucleotide polymorphisms (SNPs). We conclude that mutations in fukutin are not present in subjects with BSCL. However, the identification of SNPs provides tools to investigate this protein for association with other phenotypes.
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PMID:Single nucleotide polymorphisms of the fukutin gene. 1150 48

We analyzed three Japanese patients (two boys and a girl) from two families with congenital muscular dystrophy (CMD) and brain involvement. One of the two families had two affected siblings of different sexes. Parental consanguinity was not documented in either family. All patients showed generalized hypotonia and weakness from infancy, delayed psychomotor development, facial muscle involvement, and joint contractures. Serum creatine kinase levels were markedly elevated. The histological change seen on muscle biopsy was characteristic of a dystrophic process, although dystrophin and merosin staining were normal. On MR imaging, cortical dysplasia and cerebral white matter abnormalities were observed. Although these clinical, myopathological and neuroradiological findings were typical of Fukuyama-type CMD (FCMD), full mutational analysis of the fukutin gene revealed neither a 3 kb insertion (Japanese founder mutation) nor point mutations. RT-PCR analysis of RNA isolated from lymphoblasts of a patient revealed normal expression of the FCMD transcript. As classification of CMD should be based on genetic background, our present cases with typical clinical, myopathological and neuroradiological findings of FCMD without mutation of the fukutin gene may represent a new variant (or variants) of CMD that is different from FCMD.
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PMID:A variant of congenital muscular dystrophy. 1175 Oct 21

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