The intronic GNE variant c.1163+5G>T caused aberrant RNA splicing and reduced sialic acid biosynthesis, confirming its pathogenicity in GNE myopathy.
Case Report (n=4)
No
Combined long amplicon sequencing can identify pathogenic intronic variants in GNE myopathy that are undetectable by standard exome sequencing.
Abstract GNE myopathy is a rare autosomal recessive myopathy caused by biallelic pathogenic variants in GNE, which encodes an essential enzyme for sialic acid biosynthesis. Most variants are located in exonic regions, whereas significance of intronic variants remains unclear, leaving many suspected cases genetically unresolved. We aimed to assess the pathogenicity of intronic GNE variants using targeted whole-genome and RNA sequencing. We performed combined long amplicon sequencing in two siblings with GNE myopathy. DNA and RNA were extracted from muscle biopsy specimens and peripheral blood mononuclear cells. Variants were validated using Sanger sequencing. Splicing effects were predicted using SpliceAI and SpliceRover and validated by RNA sequencing. Muscle sialylation was assessed using peanut agglutinin lectin staining. An uncharacterized intronic variant, NC₀00009. 12 (NM₀01128227): c. 1163+5G>T, was identified in trans with a known missense variant (NM₀01128227): c. 1807C>G, p. V603L. RNA sequencing demonstrated aberrant splicing caused by intronic mutation, leading to a non-productive transcript in muscle and blood cells. Reduced sialic acid biosynthesis further supported the pathogenicity of the intronic mutation. These findings demonstrate that combined long amplicon sequencing can elucidate the genetic basis of GNE myopathy undetectable by exome sequencing. This approach provides a clinically applicable, less invasive diagnostic strategy and expands the spectrum of pathogenic GNE variants.
Toide et al. (Tue,) conducted a case report in GNE myopathy (n=4). Intronic GNE variant c.1163+5G>T vs. Wild-type GNE allele was evaluated on RNA splicing and sialic acid biosynthesis. The intronic GNE variant c.1163+5G>T caused aberrant RNA splicing and reduced sialic acid biosynthesis, confirming its pathogenicity in GNE myopathy.
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