Founder Mutation in the Roma Population Causes Recessive Variant of H-ABC

Overview

Journal Neurology

Specialty Neurology

Date 2017 Sep 22

PMID 28931644

Citations 21

Authors

Eline M C Hamilton

Enrico Bertini

Luba Kalaydjieva

Bharti Morar

Dana Dojcakova

Judy Liu

Adeline Vanderver

Julian Curiel

Claudia M Persoon

Daria Diodato

Lorenzo Pinelli

Nathalie L van der Meij

Barbara Plecko

Susan Blaser

Nicole I Wolf

Quinten Waisfisz

Truus E M Abbink

Marjo S van der Knaap

Affiliations

Soon will be listed here.

Abstract

Objective: To identify the gene defect in patients with hypomyelination with atrophy of the basal ganglia and cerebellum (H-ABC) who are negative for mutations.

Methods: We performed homozygosity mapping and whole exome sequencing (WES) to detect the disease-causing variant. We used a Taqman assay for population screening. We developed a luciferase reporter construct to investigate the effect of the promoter mutation on expression.

Results: Sixteen patients from 14 families from different countries fulfilling the MRI criteria for H-ABC exhibited a similar, severe clinical phenotype, including lack of development and a severe epileptic encephalopathy. The majority of patients had a known Roma ethnic background. Single nucleotide polymorphism array analysis in 5 patients identified one large overlapping homozygous region on chromosome 13. WES in 2 patients revealed a homozygous deletion in the promoter region of . Sanger sequencing confirmed homozygosity for this variant in all 16 patients. All patients shared a common haplotype, indicative of a founder effect. Screening of 1,000 controls from different European Roma panels demonstrated an overall carrier rate of the mutation of 3%-25%. Transfection assays showed that the deletion significantly reduced expression in specific CNS cell lines.

Conclusions: encodes ubiquitin-fold modifier 1 (UFM1), a member of the ubiquitin-like family involved in posttranslational modification of proteins. Its exact biological role is unclear. This study associates a gene defect with a disease and sheds new light on possible UFM1 functional networks.

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