Centrosome-dependent Microtubule Modifications Set the Conditions for Axon Formation

Overview

Journal Cell Rep

Publisher Cell Press

Specialties Biology
Cell Biology
Molecular Biology

Date 2022 Apr 20

PMID 35443171

Authors

Durga Praveen Meka

Oliver Kobler

Shuai Hong

Carina Meta Friedrich

Souhaila Wuesthoff

Melad Henis

Birgit Schwanke

Christoph Krisp

Nessa Schmuelling

Rene Rueter

Tabitha Ruecker

Ewelina Betleja

Tao Cheng

Moe R Mahjoub

Peter Soba

Hartmut Schluter

Eugenio F Fornasiero

Froylan Calderon de Anda

Affiliations

Soon will be listed here.

Abstract

Microtubule (MT) modifications are critical during axon development, with stable MTs populating the axon. How these modifications are spatially coordinated is unclear. Here, via high-resolution microscopy, we show that early developing neurons have fewer somatic acetylated MTs restricted near the centrosome. At later stages, however, acetylated MTs spread out in soma and concentrate in growing axon. Live imaging in early plated neurons of the MT plus-end protein, EB3, show increased displacement and growth rate near the MTOC, suggesting local differences that might support axon selection. Moreover, F-actin disruption in early developing neurons, which show fewer somatic acetylated MTs, does not induce multiple axons, unlike later stages. Overexpression of centrosomal protein 120 (Cep120), which promotes MT acetylation/stabilization, induces multiple axons, while its knockdown downregulates proteins modulating MT dynamics and stability, hampering axon formation. Collectively, we show how centrosome-dependent MT modifications contribute to axon formation.

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