Hideji Hashida scite author profile

Dentatorubral-pallidoluysian atrophy (DRPLA) is associated with the expansion of an unstable CAG repeat. Using antibodies against a synthetic peptide corresponding to the sequence of the DRPLA gene product C terminus, we have identified the DRPLA gene product in normal human brains as a approximately 190 kD protein. We also find a larger approximately 205 kD protein specifically in DRPLA brains. Immunohistochemically, the DRPLA gene product is observed mainly in the neuronal cytoplasm. Our results demonstrate the existence of the expanded CAG repeat gene product and support the possibility that the expanded CAG-encoded polyglutamine stretch may participate in the pathological process of the similar trinucleotide repeat diseases.

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The genomic structure and expression of MJD, the Machado-Joseph disease gene

Ichikawa

Goto

Hattori

et al. 2001

J Hum Genet

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Machado-Joseph disease (MJD) is an autosomal dominant neurodegenerative disorder that is clinically characterized by cerebellar ataxia and various associated symptoms. The disease is caused by an unstable expansion of the CAG repeat in the MJD gene. This gene is mapped to chromosome 14q32.1. To determine its genomic structure, we constructed a contig composed of six cosmid clones and eight bacterial artificial chromosome (BAC) clones. It spans approximately 300 kb and includes MJD. We also determined the complete sequence (175,330 bp) of B445M7, a human BAC clone that contains MJD. The MJD gene was found to span 48,240 bp and to contain 11 exons. Northern blot analysis showed that MJD mRNA is ubiquitously expressed in human tissues, and in at least four different sizes; namely, 1.4, 1.8, 4.5, and 7.5 kb. These different mRNA species probably result from differential splicing and polyadenylation, as shown by sequences of the 21 independent cDNA clones isolated after the screening of four human cDNA libraries prepared from whole brain, caudate, retina, and testis. The sequences of these latter clones relative to the MJD gene in B445M7 indicate that there are three alternative splicing sites and eight polyadenylation signals in MJD that are used to generate the differently sized transcripts.

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A novel ferritin light chain gene mutation in a Japanese family with neuroferritinopathy: Description of clinical features and implications for genotype–phenotype correlations

et al. 2009

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Neuroferritinopathy is a hereditary neurodegenerative disorder caused by mutations in the ferritin light chain gene (FTL1). The cardinal features are progressive movement disturbance, hypoferritinemia, and iron deposition in the brain. To date, five mutations have been described in Caucasian and Japanese families, but the genotype-phenotype correlations remain to be established. We identified a novel FTL1 mutation (exon 4, c.641/642, 4-nucletotide duplication) in a Japanese family and compared the clinical traits with those previously reported. All mutations but one are insertions in exon 4, resulting in frameshifts. Clinical features are similar among patients with the same mutations. Middle-age onset chorea is common in patients with insertions in the 5' portion of exon 4 including our cases, whereas patients with insertions in the 3' portion of exon 4 develop early-onset tremor, suggesting genotype-phenotype correlations. In this family, male predominance and normal serum ferritin levels are characteristic.

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Human spinal motoneurons express low relative abundance of GluR2 mRNA: an implication for excitotoxicity in ALS

Kawahara

Kwak

Sun

et al. 2003

Journal of Neurochemistry

110

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AMPA receptor-mediated neurotoxicity is currently the most plausible hypothesis for the etiology of amyotrophic lateral sclerosis (ALS). The mechanism initiating this type of neuronal death is believed to be exaggerated Ca 2+ -influx through AMPA receptors, which is critically determined by the presence or absence of the glutamate receptor subunit 2 (GluR2) in the assembly. We have provided the first quantitative measurements of the expression profile of AMPA receptor subunits mRNAs in human single neurons by means of quantitative RT-PCR with a laser microdissector. Among the AMPA subunits, GluR2 shared the vast majority throughout the neuronal subsets and tissues examined. Furthermore, both the expression level and the proportion of GluR2 mRNA in motoneurons were the lowest among all neuronal subsets examined, whereas those in motoneurons of ALS did not differ from the control group, implying that selective reduction of the GluR2 subunit cannot be a mechanism of AMPA receptormediated neurotoxicity in ALS. However, the low relative abundance of GluR2 might provide spinal motoneurons with conditions that are easily affected by changes of AMPA receptor properties including deficient GluR2 mRNA editing in ALS.

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Age‐dependent and tissue‐specific CAG repeat instability occurs in mouse knock‐in for a mutant Huntington's disease gene

Ishiguro

Yamada

Sawada

et al. 2001

J of Neuroscience Research

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Huntington's disease (HD) is a neurodegenerative disorder characterized by the expansion of CAG repeats in exon 1 of the HD gene. To clarify the instability of expanded CAG repeats in HD patients, an HD model mouse has been generated by gene replacement with human exon 1 of the HD gene with expansion to 77 CAG repeats. Chimeric proteins composed of human mutated exon 1 and mouse huntingtin are expressed ubiquitously in brain and peripheral tissues. One or two CAG repeat expansion was found in litters from paternal transmission, whereas contraction of CAG repeat in litters was observed through maternal transmission. Elderly mice show greater CAG repeat instability than younger mice, and a unique case was observed of an expanded 97 CAG repeat mouse. Somatic CAG repeat instability is particularly pronounced in the liver, kidney, stomach, and brain but not in the cerebellum of 100-week-old mice. The same results of expanded CAG repeat instability as observed in this HD model mouse were confirmed in the human brain of HD patients. Glial fibrillary acidic protein (GFAP)-positive cells have been found to be increased in the substantia nigra (SN), globus pallidus (GP), and striatum (St) in the brains of 40-week-old affected mice, although without neuronal cell death. The CAG repeat instability and increase in GFAP-positive cells in this mouse model appear to mirror the abnormalities in HD patients. The HD model mouse may therefore have advantages for investigations of molecular mechanisms underlying instability of CAG repeats.

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High-density cDNA filter analysis: a novel approach for large-scale, quantitative analysis of gene expression

Zhao

Hashida

Takahashi

et al. 1995

Gene

111

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Hideji Hashida

Anti-TIF1-γ antibody and cancer-associated myositis

IFNβ-1b may severely exacerbate Japanese optic-spinal MS in neuromyelitis optica spectrum

Abnormal gene product identified in hereditary dentatorubral–pallidoluysian atrophy (DRPLA) brain

The genomic structure and expression of MJD, the Machado-Joseph disease gene

A novel ferritin light chain gene mutation in a Japanese family with neuroferritinopathy: Description of clinical features and implications for genotype–phenotype correlations

Human spinal motoneurons express low relative abundance of GluR2 mRNA: an implication for excitotoxicity in ALS

Age‐dependent and tissue‐specific CAG repeat instability occurs in mouse knock‐in for a mutant Huntington's disease gene

High-density cDNA filter analysis: a novel approach for large-scale, quantitative analysis of gene expression

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