PLoS Genetics (Oct 2021)

Cep55 regulation of PI3K/Akt signaling is required for neocortical development and ciliogenesis.

  • Behnam Rashidieh,
  • Belal Shohayeb,
  • Amanda Louise Bain,
  • Patrick R J Fortuna,
  • Debottam Sinha,
  • Andrew Burgess,
  • Richard Mills,
  • Rachael C Adams,
  • J Alejandro Lopez,
  • Peter Blumbergs,
  • John Finnie,
  • Murugan Kalimutho,
  • Michael Piper,
  • James Edward Hudson,
  • Dominic C H Ng,
  • Kum Kum Khanna

DOI
https://doi.org/10.1371/journal.pgen.1009334
Journal volume & issue
Vol. 17, no. 10
p. e1009334

Abstract

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Homozygous nonsense mutations in CEP55 are associated with several congenital malformations that lead to perinatal lethality suggesting that it plays a critical role in regulation of embryonic development. CEP55 has previously been studied as a crucial regulator of cytokinesis, predominantly in transformed cells, and its dysregulation is linked to carcinogenesis. However, its molecular functions during embryonic development in mammals require further investigation. We have generated a Cep55 knockout (Cep55-/-) mouse model which demonstrated preweaning lethality associated with a wide range of neural defects. Focusing our analysis on the neocortex, we show that Cep55-/- embryos exhibited depleted neural stem/progenitor cells in the ventricular zone as a result of significantly increased cellular apoptosis. Mechanistically, we demonstrated that Cep55-loss downregulates the pGsk3β/β-Catenin/Myc axis in an Akt-dependent manner. The elevated apoptosis of neural stem/progenitors was recapitulated using Cep55-deficient human cerebral organoids and we could rescue the phenotype by inhibiting active Gsk3β. Additionally, we show that Cep55-loss leads to a significant reduction of ciliated cells, highlighting a novel role in regulating ciliogenesis. Collectively, our findings demonstrate a critical role of Cep55 during brain development and provide mechanistic insights that may have important implications for genetic syndromes associated with Cep55-loss.