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Neurogenesis redirects β-catenin from adherens junctions to the nucleus to promote axonal growth

Antonio Herrera, Anghara Menéndez, Andrea Ochoa, Lídia Bardia, Julien Colombelli, Sebastián Pons

2023Development11 citationsDOIOpen Access PDF

Abstract

Here, we show that, in the developing spinal cord, after the early Wnt-mediated Tcf transcription activation that confers dorsal identity to neural stem cells, neurogenesis redirects β-catenin from the adherens junctions to the nucleus to stimulate Tcf-dependent transcription in a Wnt-independent manner. This new β-catenin activity regulates genes implicated in several aspects of contralateral axon growth, including axon guidance and adhesion. Using live imaging of ex-vivo chick neural tube, we showed that the nuclear accumulation of β-catenin and the rise in Tcf-dependent transcription both initiate before the dismantling of the adherens junctions and remain during the axon elongation process. Notably, we demonstrated that β-catenin activity in post-mitotic cells depends on TCF7L2 and is central to spinal commissural axon growth. Together, our results reveal Wnt-independent Tcf/β-catenin regulation of genes that control the growth and guidance of commissural axons in chick spinal cord.

Topics & Concepts

Adherens junctionBiologyNeurogenesisWnt signaling pathwayCell biologyAxon guidanceAxonCateninNeural stem cellBeta-cateninCadherinNeuroscienceNeural tubeSpinal cordAnatomyStem cellGeneticsSignal transductionEmbryoCellAxon Guidance and Neuronal SignalingNeurogenesis and neuroplasticity mechanismsNerve injury and regeneration
Neurogenesis redirects β-catenin from adherens junctions to the nucleus to promote axonal growth | Litcius