Double Periodicity of the AnkyrinG-Associated Complex in the Axon Initial Segment
Bayraktar, G.; Dannersoe, J. K.; Hansen, S. D. S.; Laursen, L. S.; Naegerl, U. V.; Nissen, P.
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The axon initial segment (AIS), situated within the first 20-60 {micro}m of the axon, is essential for action potential generation and maintenance of axonal identity. Its structure relies on the beta ({beta})-IV-spectrin/AnkyrinG (AnkG) scaffold arranged periodically underneath the plasma membrane, harbouring diverse membrane proteins. Although a [~]190-nm cytoskeletal periodic organization is well established, the precise stoichiometry and spatial arrangement of AIS proteins within the [~]190-nm spatial period remain rudimentary, mostly for lack of sufficient spatial resolution and labelling efficiency. Here, using expansion microscopy and cryo-electron tomography, which overcome these technical limitations, we present data on the organization of the AnkG-associated complex within the [~]190-nm spatial period. We demonstrate that exactly two AnkG molecules with their C-termini separated by [~]80 nm are situated within each period. By contrast, the AnkG-associated cell-adhesion protein neurofascin-186 appears in clusters of varying sizes that are consistent with the periodic organisation of AnkG pairs, yet suggest a more complex molecular arrangement between the two molecules. Altogether, our novel approach provides new insights into AIS molecular organisation and protein stoichiometry.
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