Cerebral cortical precursor cells reside in a neuroepithelial cell layer that regulates their proliferation and differentiation. Global disruptions in epithelial architecture induced by loss of the adherens junction component alphaE-catenin lead to hyperproliferation. Here we show that cell autonomous reduction of alphaE-catenin in the background of normal precursors in vivo causes cells to prematurely exit the cell cycle, differentiate into neurons, and migrate to the cortical plate, while normal neighboring precursors are unaffected. Mechanistically, alphaE-catenin likely regulates cortical precursor differentiation by maintaining beta-catenin signaling, as reduction of alphaE-catenin leads to reduction of beta-catenin signaling in vivo. These results demonstrate that, at the cellular level, alphaE-catenin serves to maintain precursors in the proliferative ventricular zone, and suggest an unexpected function for alphaE-catenin in preserving beta-catenin signaling during cortical development.
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| http://dx.doi.org/10.1016/j.ydbio.2009.01.010 | DOI Listing |
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