MAP7D2 Localizes to the Proximal Axon and Locally Promotes Kinesin-1-Mediated Cargo Transport into the Axon
Publication date
2019-02-19
Authors
Pan, Xingxiu
Cao, Yujie
Stucchi, Riccardo
Hooikaas, Peter Jan
Portegies, Sybren
Will, Lena
Martin, Melissa J
Akhmanova, Anna
Harterink, Martin
Hoogenraad, Casper C.
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Abstract
The motor protein kinesin-1 plays an important role in polarized sorting of transport vesicles to the axon. However, the mechanism by which the axonal entry of kinesin-1-dependent cargo transport is regulated remains unclear. Microtubule-associated protein MAP7 (ensconsin in Drosophila) is an essential kinesin-1 cofactor and promotes kinesin-1 recruitment to microtubules. Here, we found that MAP7 family member MAP7D2 concentrates at the proximal axon, where it overlaps with the axon initial segment and interacts with kinesin-1. Depletion of MAP7D2 results in reduced axonal cargo entry and defects in axon development and neuronal migration. We propose a model in which MAP7D2 in the proximal axon locally promotes kinesin-1-mediated cargo entry into the axon.
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Pan, X, Cao, Y, Stucchi, R, Hooikaas, P J, Portegies, S, Will, L, Martin, M, Akhmanova, A, Harterink, M & Hoogenraad, C C 2019, 'MAP7D2 Localizes to the Proximal Axon and Locally Promotes Kinesin-1-Mediated Cargo Transport into the Axon', Cell Reports, vol. 26, no. 8, pp. 1988-1999.e6. https://doi.org/10.1016/j.celrep.2019.01.084