Neural Development (May 2017)

Afadin controls cell polarization and mitotic spindle orientation in developing cortical radial glia

  • Jennifer Rakotomamonjy,
  • Molly Brunner,
  • Christoph Jüschke,
  • Keling Zang,
  • Eric J. Huang,
  • Louis F. Reichardt,
  • Anjen Chenn

DOI
https://doi.org/10.1186/s13064-017-0085-2
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 10

Abstract

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Abstract Background In developing tissues, cell polarity and tissue architecture play essential roles in the regulation of proliferation and differentiation. During cerebral cortical development, adherens junctions link highly polarized radial glial cells in a neurogenic niche that controls their behavior. How adherens junctions regulate radial glial cell polarity and/or differentiation in mammalian cortical development is poorly understood. Results Conditional deletion of Afadin, a protein required for formation and maintenance of epithelial tissues, leads to abnormalities in radial glial cell polarity and subsequent loss of adherens junctions. We observed increased numbers of obliquely-oriented progenitor cell divisions, increased exit from the ventricular zone neuroepithelium, and increased production of intermediate progenitors. Conclusions Together, these findings indicate that Afadin plays an essential role in regulating apical-basal polarity and adherens junction integrity of radial glial cells, and suggest that epithelial architecture plays an important role in radial glial identity by regulating mitotic orientation and preventing premature exit from the neurogenic niche.

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