Biallelic Variants in UBA5 Reveal that Disruption of the UFM1 Cascade Can Result in Early-Onset Encephalopathy | Zendy

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Biallelic Variants in UBA5 Reveal that Disruption of the UFM1 Cascade Can Result in Early-Onset Encephalopathy

Author(s) -

Estelle Colin,

Jens Daniel,

Alban Ziegler,

Jamal Wakim,

Aurora Scrivo,

Tobias B. Haack,

Salim Khiati,

AnneSophie DenomméPichon,

Patrizia AmatiBonneau,

Majida Charif,

Vincent Procaccio,

Pascal Reynier,

Kyrieckos A. Aleck,

Lorenzo D. Botto,

Claudia Lena Herper,

Charlotte Sophia Kaiser,

Rima Nabbout,

Sylvie N’Guyen,

José Antonio Mora-Lorca,

Birgit Assmann,

Stine Christ,

Thomas Meitinger,

Tim M. Strom,

Holger Prokisch,

Antonio MirandaVizuete,

Georg F. Hoffmann,

Guy Lenaers,

Pascale Bomont,

Eva Liebau,

Dominique Bonneau,

Emmanuelle Génin,

Dominique Campion,

JeanFrançois Dartigues,

JeanFrançois Deleuze,

JeanCharles Lambert,

Richard Redon,

Thomas Ludwig,

Benjamin GrenierBoley,

Sébastien Letort,

Pierre Lindenbaum,

Vincent Meyer,

Olivier Quenez,

Christian Dina,

Céline Bellenguez,

Camille Charbonnier -Le Clézio,

Joanna Giemza,

Stéphanie Chatel,

Claude Férec,

Hervé Le Marec,

Luc Letenneur,

Gaël Nicolas,

Karen Rouault,

Delphine Bacq,

Anne Boland,

Doris Lechner

Publication year - 2016

Publication title -

the american journal of human genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.661

H-Index - 302

eISSN - 1537-6605

pISSN - 0002-9297

DOI - 10.1016/j.ajhg.2016.06.030

Subject(s) - biology , zebrafish , endoplasmic reticulum , microcephaly , exome sequencing , genetics , ubiquitin , mutation , neurodegeneration , gene silencing , exome , gene , encephalopathy , disease , medicine

Via whole-exome sequencing, we identified rare autosomal-recessive variants in UBA5 in five children from four unrelated families affected with a similar pattern of severe intellectual deficiency, microcephaly, movement disorders, and/or early-onset intractable epilepsy. UBA5 encodes the E1-activating enzyme of ubiquitin-fold modifier 1 (UFM1), a recently identified ubiquitin-like protein. Biochemical studies of mutant UBA5 proteins and studies in fibroblasts from affected individuals revealed that UBA5 mutations impair the process of ufmylation, resulting in an abnormal endoplasmic reticulum structure. In Caenorhabditis elegans, knockout of uba-5 and of human orthologous genes in the UFM1 cascade alter cholinergic, but not glutamatergic, neurotransmission. In addition, uba5 silencing in zebrafish decreased motility while inducing abnormal movements suggestive of seizures. These clinical, biochemical, and experimental findings support our finding of UBA5 mutations as a pathophysiological cause for early-onset encephalopathies due to abnormal protein ufmylation.

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