Identification of an Alu element-mediated deletion in the promoter region of GNE in siblings with GNE myopathy

Jennifer Garland, Joshi Stephen, Bradley Class, Angela Gruber, Carla Ciccone, Aaron Poliak, Christina P. Hayes, Vandana Singhal, Christina Slota, John Perreault, Ralitza Gavrilova, Joseph A. Shrader, Prashant Chittiboina, Galen Joe, John Heiss, William A. Gahl, Marjan Huizing, Nuria Carrillo, May Christine V. Malicdan

Research output: Contribution to journalArticlepeer-review

9 Scopus citations


Background: GNE myopathy is a rare genetic disease characterized by progressive muscle atrophy and weakness. It is caused by biallelic mutations in the GNE gene that encodes for the bifunctional enzyme, uridine diphosphate (UDP)-N-acetylglucosamine (GlcNAc) 2-epimerase/N-acetylmannosamine (ManNAc) kinase. Typical characteristics of GNE myopathy include progressive myopathy, first involving anterior tibialis muscle and sparing the quadriceps, and rimmed vacuoles on muscle biopsy. Identifying biallelic mutations by sequencing of the GNE gene confirms the diagnosis of GNE myopathy. In a subset of patients, diagnostic confirmation is challenged by the identification of mutations in only one allele, suggesting mutations in deep intronic regions or regulatory regions. Methods: We performed targeted sequencing and copy number variant (CNV) analysis of GNE in two siblings who clinically presented with GNE myopathy. Further molecular and biochemical studies were done to characterize the effect of a previously uncharacterized GNE mutation. Results: We report two siblings of Indian descent with characteristic features of GNE myopathy, including progressive skeletal muscle weakness initially involving the anterior tibialis, and rimmed vacuoles on muscle biopsy, in which a heterozygous mutation, p.Val727Met, was identified in both affected siblings, but no other deleterious variants in either coding region or exon–intron boundaries of the gene. Subsequent insertion/deletion analysis identified a novel 11.3-kb deletion (Chr9 [GRCh37]: g.36257583_36268910del) encompassing the GNE promoter region, with breakpoints residing in Alu repeats. Gene expression analysis revealed reduced GNE mRNA and protein levels, confirming decreased expression of the deleted allele harboring the deletion. Conclusions: We have identified GNE as one of the genes susceptible to Alu-mediated recombination. Our findings suggest that the deletion may encompass the promoter or another region necessary for GNE expression. In patients with typical manifestations of GNE myopathy and a single GNE variant identified, copy number variant (CNV) analysis may be useful in arriving at the diagnosis.

Original languageEnglish (US)
Pages (from-to)410-417
Number of pages8
JournalMolecular Genetics and Genomic Medicine
Issue number4
StatePublished - Jul 2017


  • Alu-SINE repeat
  • GNE isoforms
  • GNE myopathy
  • array-CGH
  • copy number variant
  • genomic rearrangement
  • precision medicine
  • sialic acid

ASJC Scopus subject areas

  • Molecular Biology
  • Genetics
  • Genetics(clinical)


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