Exome Sequencing Reveals Novel TTN Variants in Saudi Patients with Congenital Titinopathies.

ABSTRACT

Aim: Our goal was to determine the genetic basis of early-onset myopathy in patients from two unrelated families. Materials and Methods: Whole-exome sequencing, autozygosity mapping, and confirmatory targeted Sanger sequencing were performed using genomic DNA extracted from blood samples from three myopathic patients of two unrelated families. Variant filtering and pathogenicity analyses were evaluated according to standard protocols and up-to-date pipelines applied at the King Faisal Specialist Hospital and Research Center. Results: A novel homozygous variant was detected in TTN gene within the first three M-line-encoding exons in a 9-year-old female in the first family who had delayed motor development and proximal weakness. Her 4-year-old affected brother, with the same homozygous variant, could not yet walk without help. This pathogenic nonsense variant is predicted to cause a premature stop during translation. In the second family we identified two novel variants as compound heterozygosites (a deletion and a variant affecting a canonical splice site) in an affected 9-year-old female with weakness that developed at age 3, in the second family. SpliceAI predicted the variants being splice-altering with high probability. These variants were fully segregated in the family. The deletion was found to be on the paternal allele, whereas the splicing variant was on the maternal allele. The patient's echocardiography revealed mitral valve prolapse with mild mitral regurgitation. Muscle histology showed minicores that were also confirmed by electron microscopy. Conclusion: Our study identified novel pathogenic variants in the TTN gene that are likely responsible for the phenotype of early-onset myopathy; hence, expanding genotype-phenotype relationship of titinopathies.