CAMSAP1 breaks the homeostatic microtubule network to instruct neuronal polarity

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Abstract

The establishment of axon/dendrite polarity is fundamental for neurons to integrate into functional circuits, and this process is critically dependent on microtubules (MTs). In the early stages of the establishment process, MTs in axons change dramatically with the morphological building of neurons; however, how the MT network changes are triggered is unclear. Here we showthat CAMSAP1 plays a decisive role in the neuronal axon identification process by regulating the number of MTs. Neurons lacking CAMSAP1 form a multiple axon phenotype in vitro, while the multipolar-bipolar transition and radialmigration are blocked in vivo.We demonstrate that the polarity regulator MARK2 kinase phosphorylates CAMSAP1 and affects its ability to bind to MTs, which in turn changes the protection of MT minus-ends and also triggers asymmetric distribution of MTs. Our results indicate that the polarized MT network in neurons is a decisive factor in establishing axon/dendritic polarity and is initially triggered by polarized signals.

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APA

Zhou, Z., Xu, H., Li, Y., Yang, M., Zhang, R., Shiraishi, A., … Meng, W. (2020). CAMSAP1 breaks the homeostatic microtubule network to instruct neuronal polarity. Proceedings of the National Academy of Sciences of the United States of America, 117(36), 22193–22203. https://doi.org/10.1073/pnas.1913177117

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