Molecular Therapy: Nucleic Acids (Dec 2024)

Exploring non-coding variants and evaluation of antisense oligonucleotides for splicing redirection in Usher syndrome

  • Belén García-Bohórquez,
  • Pilar Barberán-Martínez,
  • Elena Aller,
  • Teresa Jaijo,
  • Pablo Mínguez,
  • Cristina Rodilla,
  • Lidia Fernández-Caballero,
  • Fiona Blanco-Kelly,
  • Carmen Ayuso,
  • Alba Sanchis-Juan,
  • Sanne Broekman,
  • Erik de Vrieze,
  • Erwin van Wijk,
  • Gema García-García,
  • José M. Millán

Journal volume & issue
Vol. 35, no. 4
p. 102374

Abstract

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Exploring non-coding regions is increasingly gaining importance in the diagnosis of inherited retinal dystrophies. Deep-intronic variants causing aberrant splicing have been identified, prompting the development of antisense oligonucleotides (ASOs) to modulate splicing. We performed a screening of five previously described USH2A deep-intronic variants among USH2A monoallelic patients with Usher syndrome (USH) or isolated retinitis pigmentosa. Sequencing of entire USH2A or USH genes was then conducted in unresolved or newly monoallelic cases. The splicing impact of identified variants was assessed using minigene assays, and ASOs were designed to correct splicing. The screening allowed to diagnose 30.95% of the studied patients. The sequencing of USH genes revealed 16 new variants predicted to affect splicing, with four confirmed to affect splicing through minigene assays. Two of them were unreported deep-intronic variants and predicted to include a pseudoexon in the pre-mRNA, and the other two could alter a regulatory cis-element. ASOs designed for three USH2A deep-intronic variants successfully redirected splicing in vitro. Our study demonstrates the improvement in genetic characterization of IRDs when analyzing non-coding regions, highlighting that deep-intronic variants significantly contribute to USH2A pathogenicity. Furthermore, successful splicing modulation through ASOs highlights their therapeutic potential for patients carrying deep-intronic variants.

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