PLoS ONE (Jan 2016)

Axial Spondylometaphyseal Dysplasia Is Caused by C21orf2 Mutations.

  • Zheng Wang,
  • Aritoshi Iida,
  • Noriko Miyake,
  • Koji M Nishiguchi,
  • Kosuke Fujita,
  • Toru Nakazawa,
  • Abdulrahman Alswaid,
  • Mohammed A Albalwi,
  • Ok-Hwa Kim,
  • Tae-Joon Cho,
  • Gye-Yeon Lim,
  • Bertrand Isidor,
  • Albert David,
  • Cecilie F Rustad,
  • Else Merckoll,
  • Jostein Westvik,
  • Eva-Lena Stattin,
  • Giedre Grigelioniene,
  • Ikuyo Kou,
  • Masahiro Nakajima,
  • Hirohumi Ohashi,
  • Sarah Smithson,
  • Naomichi Matsumoto,
  • Gen Nishimura,
  • Shiro Ikegawa

DOI
https://doi.org/10.1371/journal.pone.0150555
Journal volume & issue
Vol. 11, no. 3
p. e0150555

Abstract

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Axial spondylometaphyseal dysplasia (axial SMD) is an autosomal recessive disease characterized by dysplasia of axial skeleton and retinal dystrophy. We conducted whole exome sequencing and identified C21orf2 (chromosome 21 open reading frame 2) as a disease gene for axial SMD. C21orf2 mutations have been recently found to cause isolated retinal degeneration and Jeune syndrome. We found a total of five biallelic C21orf2 mutations in six families out of nine: three missense and two splicing mutations in patients with various ethnic backgrounds. The pathogenic effects of the splicing (splice-site and branch-point) mutations were confirmed on RNA level, which showed complex patterns of abnormal splicing. C21orf2 mutations presented with a wide range of skeletal phenotypes, including cupped and flared anterior ends of ribs, lacy ilia and metaphyseal dysplasia of proximal femora. Analysis of patients without C21orf2 mutation indicated genetic heterogeneity of axial SMD. Functional data in chondrocyte suggest C21orf2 is implicated in cartilage differentiation. C21orf2 protein was localized to the connecting cilium of the cone and rod photoreceptors, confirming its significance in retinal function. Our study indicates that axial SMD is a member of a unique group of ciliopathy affecting skeleton and retina.