<p>Nephronophthisis is an autosomal recessive ciliopathy and a major genetic cause of end-stage kidney disease in children and young adults. Although next-generation sequencing panels have improved diagnostic yield, some patients remain genetically unresolved, partly due to deep intronic variants that disrupt pre-mRNA splicing and are not captured by exon-focused approaches. We report a 13-year-old boy who presented with advanced kidney dysfunction, small renal cysts, and kidney histopathology consistent with nephronophthisis. Targeted gene panel sequencing failed to identify causative pathogenic variants beyond a missense variant of uncertain significance. Whole-genome sequencing subsequently revealed compound heterozygous variants in <i>IFT172</i> (NM_015662.3): a missense variant (c.4696C &gt; T, p.Arg1566Cys) and a deep intronic variant (c.4915-94A &gt; G). In silico analysis predicted activation of cryptic splice sites leading to inclusion of an 86-bp pseudoexon, which was confirmed by a minigene splicing assay. These findings established a molecular diagnosis of <i>IFT172</i>-related nephronophthisis. To our knowledge, this is the first report demonstrating pseudoexon inclusion in <i>IFT172</i>, thereby expanding its mutational spectrum. Our case underscores the importance of evaluating deep intronic regions using whole-genome sequencing and functional validation in genetically unresolved nephronophthisis.</p>

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A deep intronic IFT172 variant causing pseudoexon inclusion identified by whole-genome sequencing in nephronophthisis

  • Perry Martel Sy,
  • Minato Baba,
  • Kaori Fujiwara,
  • Natsumi Yamamura,
  • Kazumi Kawato,
  • Eriko Nishi,
  • Shuhei Aoyama,
  • Yuka Kimura,
  • Yuta Inoki,
  • China Nagano,
  • Nana Sakakibara,
  • Tomoko Horinouchi,
  • Tomohiko Yamamura,
  • Shingo Ishimori,
  • Naoya Morisada,
  • Kandai Nozu

摘要

Nephronophthisis is an autosomal recessive ciliopathy and a major genetic cause of end-stage kidney disease in children and young adults. Although next-generation sequencing panels have improved diagnostic yield, some patients remain genetically unresolved, partly due to deep intronic variants that disrupt pre-mRNA splicing and are not captured by exon-focused approaches. We report a 13-year-old boy who presented with advanced kidney dysfunction, small renal cysts, and kidney histopathology consistent with nephronophthisis. Targeted gene panel sequencing failed to identify causative pathogenic variants beyond a missense variant of uncertain significance. Whole-genome sequencing subsequently revealed compound heterozygous variants in IFT172 (NM_015662.3): a missense variant (c.4696C > T, p.Arg1566Cys) and a deep intronic variant (c.4915-94A > G). In silico analysis predicted activation of cryptic splice sites leading to inclusion of an 86-bp pseudoexon, which was confirmed by a minigene splicing assay. These findings established a molecular diagnosis of IFT172-related nephronophthisis. To our knowledge, this is the first report demonstrating pseudoexon inclusion in IFT172, thereby expanding its mutational spectrum. Our case underscores the importance of evaluating deep intronic regions using whole-genome sequencing and functional validation in genetically unresolved nephronophthisis.