Kavli Affiliate: Shawn Ferguson
| Authors: Oliver Glomb, Grace Swaim, Pablo Munoz LLancao, Christopher Lovejoy, Sabyasachi Sutradhar, Junhyun Park, Youjun Wu, Marc Hammarlund, Jonathon Howard, Shawn M. Ferguson and Shaul Yogev
| Summary:
A periodic lattice of actin rings and spectrin tetramers scaffolds the axonal membrane. How spectrin is delivered to this structure to scale its size to that of the growing axon is unknown. We found that endogenous spectrin, visualized with singe axon resolution in vivo, is delivered to hotspots in the lattice that support its expansion at rates set by axon stretch-growth. Unlike other cytoskeletal proteins, whose apparent slow movement consists of intermittent bouts of fast movements, spectrin moves slowly and processively. We identified a pair of coiled coil proteins that mediate this slow movement and the expansion of the lattice by linking spectrin to kinesin-1. Thus, processive slow transport and local lattice incorporation support scaled cytoskeletal expansion during axon stretch-growth. One-Sentence Summary Kinesin adaptors control spectrin transport and expansion of the membrane periodic skeleton.