An axon initial segment is required for temporal precision in action potential encoding by neuronal populations

Central neurons initiate action potentials (APs) in the axon initial segment (AIS), a compartment characterized by a high concentration of voltage-dependent ion channels and specialized cytoskeletal anchoring proteins arranged in a regular nanoscale pattern. Although the AIS was a key evolutionary i...

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Bibliographic Details
Published in:Science advances 2018-11, Vol.4 (11), p.eaau8621-eaau8621
Main Authors: Lazarov, Elinor, Dannemeyer, Melanie, Feulner, Barbara, Enderlein, Jörg, Gutnick, Michael J, Wolf, Fred, Neef, Andreas
Format: Article
Language:English
Subjects:
Cellular Neuroscience
Evolutionary Biology
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Summary:Central neurons initiate action potentials (APs) in the axon initial segment (AIS), a compartment characterized by a high concentration of voltage-dependent ion channels and specialized cytoskeletal anchoring proteins arranged in a regular nanoscale pattern. Although the AIS was a key evolutionary innovation in neurons, the functional benefits it confers are not clear. Using a mutation of the AIS cytoskeletal protein βIV-spectrin, we here establish an in vitro model of neurons with a perturbed AIS architecture that retains nanoscale order but loses the ability to maintain a high Na density. Combining experiments and simulations, we show that a high Na density in the AIS is not required for axonal AP initiation; it is, however, crucial for a high bandwidth of information encoding and AP timing precision. Our results provide the first experimental demonstration of axonal AP initiation without high axonal channel density and suggest that increasing the bandwidth of the neuronal code and, hence, the computational efficiency of network function, was a major benefit of the evolution of the AIS.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.aau8621