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Membrane tension propagation couples axon growth and collateral branching

Zheng Shi, Sarah Innes-Gold, Adam E. Cohen

2022Science Advances52 citationsDOIOpen Access PDF

Abstract

Neuronal axons must navigate a mechanically heterogeneous environment to reach their targets, but the biophysical mechanisms coupling mechanosensation, growth, and branching are not fully understood. Here, we show that local changes in membrane tension propagate along axons at approximately 20 μm/s, more than 1000-fold faster than in most other nonmotile cells where this property has been measured. Local perturbations to tension decay along the axon with a length constant of approximately 41 μm. This rapid and long-range mechanical signaling mediates bidirectional competition between axonal branch initiation and growth cone extension. Our data suggest a mechanism by which mechanical cues at one part of a growing axon can affect growth dynamics remotely.

Topics & Concepts

AxonGrowth coneBiophysicsTension (geology)NeuroscienceBranching (polymer chemistry)BiologyAnatomyChemistryMaterials scienceCompression (physics)Organic chemistryComposite materialCellular Mechanics and InteractionsMicrotubule and mitosis dynamicsAxon Guidance and Neuronal Signaling
Membrane tension propagation couples axon growth and collateral branching | Litcius