Litcius/Paper detail

A-type FHFs mediate resurgent currents through TTX-resistant voltage-gated sodium channels

Yucheng Xiao, Jonathan W Theile, Agnes Zybura, Yanling Pan, Zhixin Lin, Theodore R Cummins

2022eLife26 citationsDOIOpen Access PDF

Abstract

Resurgent currents ( I NaR ) produced by voltage-gated sodium channels are required for many neurons to maintain high-frequency firing and contribute to neuronal hyperexcitability and disease pathophysiology. Here, we show, for the first time, that I NaR can be reconstituted in a heterologous system by coexpression of sodium channel α-subunits and A-type fibroblast growth factor homologous factors (FHFs). Specifically, A-type FHFs induces I NaR from Nav1.8, Nav1.9 tetrodotoxin (TTX)-resistant neuronal channels, and, to a lesser extent, neuronal Nav1.7 and cardiac Nav1.5 channels. Moreover, we identified the N-terminus of FHF as the critical molecule responsible for A-type FHFs-mediated I NaR . Among the FHFs, FHF4A is the most important isoform for mediating Nav1.8 and Nav1.9 I NaR . In nociceptive sensory neurons, FHF4A knockdown significantly reduces I NaR amplitude and the percentage of neurons that generate I NaR , substantially suppressing excitability. Thus, our work reveals a novel molecular mechanism underlying TTX-resistant I NaR generation and provides important potential targets for pain treatment.

Topics & Concepts

Sodium channelNeuroscienceChemistryGene isoformIon channelNAV1Gene knockdownCell biologyTetrodotoxinSensory neuronSensory systemNerve growth factorBiophysicsNociceptorNociceptionHeterologousBiologyNeuronMembrane potentialGatingPatch clampElectrophysiologyTransient receptor potential channelNervous systemHEK 293 cellsStretch-activated ion channelPremovement neuronal activitySnapAcid-sensing ion channelIon channel regulation and functionPain Mechanisms and TreatmentsNeuroscience of respiration and sleep