Takahiko Saida scite author profile

Machado--Joseph disease (MJD) is an autosomal dominant spinocerebellar degeneration mapped to chromosome 14q32.1. The CAG expansions of the MJD1 gene was identified as the cause of the disease. We have analyzed 90 MJD individuals from 62 independent MJD families and found that the MJD1 repeat length is inversely correlated with the age of onset (r = -0.87). The MJD chromosomes contained 61-84 repeat units, whereas normal chromosomes displayed 14-34 repeats. In the normal chromosomes, 14 repeat units were the most common and the shortest. In association with the clinical anticipation of the disease, a parent--child analysis showed the unidirectional expansion of CAG repeats and no case of diminution in the affected family. The differences in CAG repeat length between parent and child and between siblings are greater in paternal transmission than in maternal transmission. Detailed analysis revealed that a large degree of expansion was associated with a shorter length of MJD1 gene in paternal transmission. On the other hand, the increments of increase were similar for shorter and longer expansion in maternal transmission. Among the three clinical subtypes, type I of MJD, with dystonia, showed a larger degree of expansion in CAG repeats of the gene and younger ages of onset than the other types.

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Characteristic Magnetic Resonance Imaging Findings in Machado-Joseph Disease

Murata

Yamaguchi²,

Kawakami³

et al. 1998

Arch Neurol

129

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Antibodies against GM₁ ganglioside affect K⁺ and NA⁺ currents in isolated rat myelinated nerve fibers

Takigawa

Yasuda

Kikkawa

et al. 1995

Annals of Neurology

242

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High titers of anti-GM1 ganglioside antibodies (anti-GM1 antibodies) may be implicated in lower motor neuron disease. We studied the pathogenic role of anti-GM1 antibody using the petroleum jelly-gap voltage clamp technique on isolated single myelinated rat nerve fibers. Anti-GM1 antisera were obtained from rabbits immunized with GM1 ganglioside. Extracellularly applied anti-GM1 antisera without complement activity increased both the rate of rise and the amplitude of the K+ current elicited by step depolarization, with little effect on Na+ current. In the presence of active complement, however, anti-GM1 antibodies decreased the Na+ current, and caused a progressive increase of nonspecific leakage current. Neither complement alone nor complement-supplemented antisera from which anti-GM1 antibodies were depleted by affinity chromatography had any effect on ionic current. These observations indicate that anti-GM1 antibodies themselves can uncover K+ channels in the paranodal region, while anti-GM1 antibodies bound to the nodal membrane in the presence of complement may form antibody-complement complexes that block Na+ channels and disrupt the membrane at the node of Ranvier.

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Takahiko Saida

Natalizumab treatment for multiple sclerosis: updated recommendations for patient selection and monitoring

Temporal changes and geographical differences in multiple sclerosis phenotypes in Japanese: nationwide survey results over 30 years

Molecular features of the CAG repeats and clinical manifestation of Machado--Joseph disease

Characteristic Magnetic Resonance Imaging Findings in Machado-Joseph Disease

Antibodies against GM₁ ganglioside affect K⁺ and NA⁺ currents in isolated rat myelinated nerve fibers

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Takahiko Saida

Natalizumab treatment for multiple sclerosis: updated recommendations for patient selection and monitoring

Temporal changes and geographical differences in multiple sclerosis phenotypes in Japanese: nationwide survey results over 30 years

Molecular features of the CAG repeats and clinical manifestation of Machado--Joseph disease

Characteristic Magnetic Resonance Imaging Findings in Machado-Joseph Disease

Antibodies against GM1 ganglioside affect K+ and NA+ currents in isolated rat myelinated nerve fibers

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Product

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Antibodies against GM₁ ganglioside affect K⁺ and NA⁺ currents in isolated rat myelinated nerve fibers