Sequence of ionic currents that determine the shape of the action potential in the axon initial segment
Sequence of ionic currents that determine the shape of the action potential in the axon initial segment
PublicationScientific culture

Ionic currents underlying the generation of the action potential

on the 9 May 2023
The action potential, which is the principle electrical signal that carries the information in the brain, initiates in the axon initial segment.
It generates thanks to the sudden activation of voltage-gated sodium channels that mediate a sub-millisecond sodium current responsible for the rising phase of the spike. Using a combination of ultrafast imaging techniques and a novel peptide selective for the sodium channel subtype Nav1.2, a LIPhy group analysed the action potential generation in the axon of cortical pyramidal neurons of the mouse [*]. They found that the sodium channel Nav1.2 also carries a calcium current that activates the BK potassium channel determining the shape of the action potential. This finding advances our knowledge of the action potential generation and it can be also important for the understanding of several neuronal disorders associated with membrane excitability.

Reference :
[*] Filipis L, Blömer LA, Montnach J, Loussouarn G, De Waard M, Canepari M. Nav1.2 and BK channel interaction shapes the action potential in the axon initial segment. J Physiol. 2023 Mar 22. doi: 10.1113/JP283801.
 
Mis à jour le 9 May 2023