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Nav1.3 and fibroblast growth factor homologous factor 14 are primary determinants of the TTX-sensitive sodium current in mouse adrenal chromaffin cells

Authors :
Chengtao Yang
Xiao-Ming Xia
Christopher J. Lingle
Pedro L. Martinez-Espinosa
Publication Year :
2020
Publisher :
Cold Spring Harbor Laboratory, 2020.

Abstract

Adrenal chromaffin cells (CCs) in rodents express a rapidly inactivating, TTX-sensitive sodium current. The current has generally been attributed to Nav1.7, although a possible role for Nav1.3 has also been suggested. Nav channels in rat CCs rapidly inactivate into two separable pathways, which differ in their time course of recovery from inactivation. One population recovers with time constants similar to traditional fast inactivation and the other about 10-fold slower. Inactivation properties suggest that the two pathways result from a single homogenous population of channels. Here we probe the properties and molecular components of the Nav current present in mouse CCs. We first confirm that functional properties of Nav current in rat and mouse cells are generally similar in terms of activation range, steady-state inactivation, and dual pathway fast inactivation. The results then show that all inward Nav current is absent in CCs from Nav1.3 KO mice. Subsequently, in a mouse with KO of fibroblast growth factor homology factor 14 (FGF14), we find that the slow component of recovery from fast inactivation is completely absent in most CCs, with no change in the time constant of fast recovery. Experiments probing the use-dependence of Nav current diminution between WT and FGF14 KO mice directly demonstrate a role of slow recovery from inactivation in determination of Nav current availability. Overall, the results indicate that the FGF14-mediated inactivation is the major determinant in defining use-dependent changes in Nav availability in CCs. We also consider the potential impact that inactivating FGF’s with different recovery kinetics can exert on differential use-dependent changes in Nav availability.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........47f842924e3e57821d6e8e99c0335ce9
Full Text :
https://doi.org/10.1101/2020.10.31.363416