Annals of Clinical and Translational Neurology (Oct 2024)

Inferring disease course from differential exon usage in the wide titinopathy spectrum

  • Maria Francesca Di Feo,
  • Ali Oghabian,
  • Ella Nippala,
  • Mathias Gautel,
  • Heinz Jungbluth,
  • Francesca Forzano,
  • Edoardo Malfatti,
  • Claudia Castiglioni,
  • Ilona Krey,
  • David Gomez Andres,
  • Angela F. Brady,
  • Maria Iascone,
  • Anna Cereda,
  • Lidia Pezzani,
  • Daniel Natera De Benito,
  • Andres Nascimiento Osorio,
  • Berta Estévez Arias,
  • Sergei A. Kurbatov,
  • Tania Attie‐Bitach,
  • Sheela Nampoothiri,
  • Erin Ryan,
  • Michelle Morrow,
  • Svetlana Gorokhova,
  • Brigitte Chabrol,
  • Juha Sinisalo,
  • Heli Tolppanen,
  • Johanna Tolva,
  • Francina Munell,
  • Jessica Camacho Soriano,
  • Maria Angeles Sanchez Duran,
  • Mridul Johari,
  • Homa Tajsharghi,
  • Peter Hackman,
  • Bjarne Udd,
  • Marco Savarese

DOI
https://doi.org/10.1002/acn3.52189
Journal volume & issue
Vol. 11, no. 10
pp. 2745 – 2755

Abstract

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Abstract Objective Biallelic titin truncating variants (TTNtv) have been associated with a wide phenotypic spectrum, ranging from complex prenatal muscle diseases with dysmorphic features to adult‐onset limb‐girdle muscular dystrophy, with or without cardiac involvement. Given the size and complexity of TTN, reaching an unequivocal molecular diagnosis and precise disease prognosis remains challenging. Methods In this case series, 12 unpublished cases and one already published case with biallelic TTNtv were collected from multiple international medical centers between November 2022 and September 2023. TTN mutations were detected through exome or genome sequencing. Information about familial and personal clinical history was collected in a standardized form. RNA‐sequencing and analysis of TTN exon usage were performed on an internal sample cohort including postnatal skeletal muscles, fetal skeletal muscles, postnatal heart muscles, and fetal heart muscles. In addition, publicly available RNA‐sequencing data was retrieved from ENCODE. Results We generated new RNA‐seq data on TTN exons and identified genotype–phenotype correlations with prognostic implications for each titinopathy patient (whether worsening or improving in prenatal and postnatal life) using percentage spliced in (PSI) data for the involved exons. Interestingly, thanks to exon usage, we were also able to rule out a titinopathy diagnosis in one prenatal case. Interpretation This study demonstrates that exon usage provides valuable insights for a more exhaustive clinical interpretation of TTNtv; additionally, it may serve as a model for implementing personalized medicine in many other genetic diseases, since most genes undergo alternative splicing.