EBioMedicine (May 2019)

A genetic modifier of symptom onset in Pompe diseaseResearch in context

  • Atze J. Bergsma,
  • Stijn L.M. in 't Groen,
  • Jan J.A. van den Dorpel,
  • Hannerieke J.M.P. van den Hout,
  • Nadine A.M.E. van der Beek,
  • Benedikt Schoser,
  • Antonio Toscano,
  • Olimpia Musumeci,
  • Bruno Bembi,
  • Andrea Dardis,
  • Amelia Morrone,
  • Albina Tummolo,
  • Elisabetta Pasquini,
  • Ans T. van der Ploeg,
  • W.W.M. Pim Pijnappel

Journal volume & issue
Vol. 43
pp. 553 – 561

Abstract

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Background: Neonatal screening for Pompe disease is complicated by difficulties in predicting symptom onset in patients with the common c.-32-13T>G (IVS1) variant/null (i.e. fully deleterious) acid α-glucosidase (GAA) genotype. This splicing variant occurs in 90% of Caucasian late onset patients, and is associated with a broad range of symptom onset. Methods: We analyzed a cohort of 143 compound heterozygous and 10 homozygous IVS1 patients, and we assessed ages at symptom onset, the presence of cis-acting single nucleotide variants (SNVs), and performed splicing analysis and enzyme activity assays. Findings: In compound heterozygous IVS1 patients, the synonymous variant c.510C>T was uniquely present on the IVS1 allele in 9/33 (27%) patients with childhood onset, but was absent from 110 patients with onset in adulthood. GAA enzyme activity was lower in fibroblasts from patients who contained c.510C>T than it was in patients without c.510C>T. By reducing the extent of leaky wild-type splicing, c.510C>T modulated aberrant splicing caused by the IVS1 variant. The deleterious effect of c.510C>T was also found in muscle cells, the main target cells in Pompe disease. In homozygous IVS1 patients, the c.510C>T variant was absent in 4/4 (100%) asymptomatic individuals and present in 3/6 (50%) symptomatic patients. In cells from homozygous IVS1 patients, c.510C>T caused reduced leaky wild-type splicing. Interpretation: c.510C>T is a genetic modifier in compound heterozygous and homozygous IVS1 patients. This finding is important for neonatal screening programs for Pompe disease. Fund: This work was funded by grants from Sophia Children's Hospital Foundation (SSWO, grant S17–32) and Metakids (2016–063). Keywords: Modifying factor, Pompe disease, Lysosomal storage disease, Pre-mRNA splicing, c.510C>T