Naohide Shiroma scite author profile

BackgroundRett syndrome (RTT) is a characteristic neurological disease presenting with regressive loss of neurodevelopmental milestones. Typical RTT is generally caused by abnormality of methyl-CpG binding protein 2 (MECP2). Our objective to investigate the genetic landscape of MECP2-negative typical/atypical RTT and RTT-like phenotypes using whole exome sequencing (WES).MethodsWe performed WES on 77 MECP2-negative patients either with typical RTT (n=11), atypical RTT (n=22) or RTT-like phenotypes (n=44) incompatible with the RTT criteria.ResultsPathogenic or likely pathogenic single-nucleotide variants in 28 known genes were found in 39 of 77 (50.6%) patients. WES-based CNV analysis revealed pathogenic deletions involving six known genes (including MECP2) in 8 of 77 (10.4%) patients. Overall, diagnostic yield was 47 of 77 (61.0 %). Furthermore, strong candidate variants were found in four novel genes: a de novo variant in each of ATPase H+ transporting V0 subunit A1 (ATP6V0A1), ubiquitin-specific peptidase 8 (USP8) and microtubule-associated serine/threonine kinase 3 (MAST3), as well as biallelic variants in nuclear receptor corepressor 2 (NCOR2).ConclusionsOur study provides a new landscape including additional genetic variants contributing to RTT-like phenotypes, highlighting the importance of comprehensive genetic analysis.

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Diagnosis of Alexander disease in a Japanese patient by molecular genetic analysis

Shiroma

Kanazawa

Izumi

et al. 2001

J Hum Genet

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Alexander disease is a leukodystrophy that is neuropathologically characterized by the presence of numerous Rosenthal fibers in astrocytes. Recently, mutations in the gene encoding glial fibrillary acidic protein (GFAP) were identified in patients with Alexander disease. We sequenced the GFAP gene of a Japanese girl who presented with typical symptoms of Alexander disease but in whom the diagnosis was not proven by histopathology. We identified a missense mutation, R239C, which is identical to the mutation previously reported to be most frequent. As was the case in previously described patients, our patient was also heterozygous for the de novo mutation. Interestingly, despite the fact that this is a de novo mutation, R239C was found to be common in different ethnic groups, implying that the site is a "hot spot" for mutagenesis. Molecular genetic analysis now makes the antemortem diagnosis of Alexander disease possible.

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A case of megalencephalic leukoencephalopathy with subcortical cysts (van der Knaap disease): molecular genetic study

Saijo¹,

Nakayama²,

Ezoe³

et al. 2003

Brain and Development

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Molecular genetic study in Japanese patients with Alexander disease: a novel mutation, R79L

Shiroma

Kanazawa

Kato

et al. 2003

Brain and Development

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Naohide Shiroma

Autoantibodies and Cell‐mediated Autoimmunity to NMDA‐type GluRɛ2 in Patients with Rasmussen's Encephalitis and Chronic Progressive Epilepsia Partialis Continua

Genetic landscape of Rett syndrome-like phenotypes revealed by whole exome sequencing

Diagnosis of Alexander disease in a Japanese patient by molecular genetic analysis

A case of megalencephalic leukoencephalopathy with subcortical cysts (van der Knaap disease): molecular genetic study

Molecular genetic study in Japanese patients with Alexander disease: a novel mutation, R79L

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