Mutations in the Glycosyltransferase Domain of GLT8D1 Are Associated with Familial Amyotrophic Lateral Sclerosis | Zendy

Johnathan CooperKnock | Zendy; Tobias Moll | Zendy; Tennore Ramesh | Zendy; Lydia M. Castelli | Zendy; A.-M. Beer | Zendy; H. Ian Robins | Zendy; Ian Fox | Zendy; Isabell Niedermoser | Zendy; Philip Van Damme | Zendy; Matthieu Moisse | Zendy; Wim Robberecht | Zendy; Orla Hardiman | Zendy; Mónica Povedano Panadés | Zendy; Abdelilah Assialioui | Zendy; Jesús S. Mora | Zendy; A. Nazlı Başak | Zendy; Karen Morrison | Zendy; Christopher E. Shaw | Zendy; Ammar AlChalabi | Zendy; John E. Landers | Zendy; Matthew Wyles | Zendy; Paul R. Heath | Zendy; Adrian Higginbottom | Zendy; Theresa Walsh | Zendy; Mbombe Kazoka | Zendy; Christopher McDermott | Zendy; Guillaume M. Hautbergue | Zendy; Janine Kirby | Zendy; Pamela J. Shaw | Zendy

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Mutations in the Glycosyltransferase Domain of GLT8D1 Are Associated with Familial Amyotrophic Lateral Sclerosis

Author(s) -

Johnathan CooperKnock,

Tobias Moll,

Tennore Ramesh,

Lydia M. Castelli,

A.-M. Beer,

H. Ian Robins,

Ian Fox,

Isabell Niedermoser,

Philip Van Damme,

Matthieu Moisse,

Wim Robberecht,

Orla Hardiman,

Mónica Povedano Panadés,

Abdelilah Assialioui,

Jesús S. Mora,

A. Nazlı Başak,

Karen Morrison,

Christopher E. Shaw,

Ammar AlChalabi,

John E. Landers,

Matthew Wyles,

Paul R. Heath,

Adrian Higginbottom,

Theresa Walsh,

Mbombe Kazoka,

Christopher McDermott,

Guillaume M. Hautbergue,

Janine Kirby,

Pamela J. Shaw

Publication year - 2019

Publication title -

cell reports

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.264

H-Index - 154

eISSN - 2639-1856

pISSN - 2211-1247

DOI - 10.1016/j.celrep.2019.02.006

Subject(s) - amyotrophic lateral sclerosis , biology , genetics , exome sequencing , mutation , exon , exome , gene , zebrafish , disease , medicine

Amyotrophic lateral sclerosis (ALS) is a severe neurodegenerative disorder without effective neuroprotective therapy. Known genetic variants impair pathways, including RNA processing, axonal transport, and protein homeostasis. We report ALS-causing mutations within the gene encoding the glycosyltransferase GLT8D1. Exome sequencing in an autosomal-dominant ALS pedigree identified p.R92C mutations in GLT8D1, which co-segregate with disease. Sequencing of local and international cohorts demonstrated significant ALS association in the same exon, including additional rare deleterious mutations in conserved amino acids. Mutations are associated with the substrate binding site, and both R92C and G78W changes impair GLT8D1 enzyme activity. Mutated GLT8D1 exhibits in vitro cytotoxicity and induces motor deficits in zebrafish consistent with ALS. Relative toxicity of mutations in model systems mirrors clinical severity. In conclusion, we have linked ALS pathophysiology to inherited mutations that diminish the activity of a glycosyltransferase enzyme.

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