Cell Death Discovery (May 2024)

Mutant kri1l causes abnormal retinal development via cell cycle arrest and apoptosis induction

  • Rong Zhang,
  • Jiajun Sun,
  • Yabin Xie,
  • Wei Zhu,
  • Meitong Tao,
  • Yu Chen,
  • Wei Xie,
  • Rengui Bade,
  • Shuyuan Jiang,
  • Xiaolei Liu,
  • Guo Shao,
  • Weijun Pan,
  • Chengjiang Zhou,
  • Xiaoe Jia

DOI
https://doi.org/10.1038/s41420-024-02022-2
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 9

Abstract

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Abstract Damage to the ribosome or an imbalance in protein biosynthesis can lead to some human diseases, such as diabetic retinopathy (DR) and other eye diseases. Here, we reported that the kri1l gene was responsible for retinal development. The kri1l gene encodes an essential component of the rRNA small subunit processome. The retinal structure was disrupted in kri1l mutants, which resulted in small eyes. The boundaries of each layer of cells in the retina were blurred, and each layer of cells was narrowed and decreased. The photoreceptor cells and Müller glia cells almost disappeared in kri1l mutants. The lack of photoreceptor cells caused a fear of light response. The development of the retina started without abnormalities, and the abnormalities began two days after fertilization. In the kri1l mutant, retinal cell differentiation was defective, resulting in the disappearance of cone cells and Müller cells. The proliferation of retinal cells was increased, while apoptosis was also enhanced in kri1l mutants. γ-H2AX upregulation indicated the accumulation of DNA damage, which resulted in cell cycle arrest and apoptosis. The kri1l mutation reduced the expression of some opsin genes and key retinal genes, which are also essential for retinal development.