Activation of TREK Currents by Riluzole in Three Subgroups of Cultured Mouse Nodose Ganglion Neurons

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2018 Jun 22

PMID 29928032

Citations 11

Authors

Diego Fernandez-Fernandez

Alba Cadaveira-Mosquera

Lola Rueda-Ruzafa

Salvador Herrera-Perez

Emma L Veale

Antonio Reboreda

Alistair Mathie

J Antonio Lamas

Affiliations

Soon will be listed here.

Abstract

Two-pore domain potassium channels (K2P) constitute major candidates for the regulation of background potassium currents in mammalian cells. Channels of the TREK subfamily are also well positioned to play an important role in sensory transduction due to their sensitivity to a large number of physiological and physical stimuli (pH, mechanical, temperature). Following our previous report describing the molecular expression of different K2P channels in the vagal sensory system, here we confirm that TREK channels are functionally expressed in neurons from the mouse nodose ganglion (mNG). Neurons were subdivided into three groups (A, Ah and C) based on their response to tetrodotoxin and capsaicin. Application of the TREK subfamily activator riluzole to isolated mNG neurons evoked a concentration-dependent outward current in the majority of cells from all the three subtypes studied. Riluzole increased membrane conductance and hyperpolarized the membrane potential by approximately 10 mV when applied to resting neurons. The resting potential was similar in all three groups, but C cells were clearly less excitable and showed smaller hyperpolarization-activated currents at -100 mV and smaller sustained currents at -30 mV. Our results indicate that the TREK subfamily of K2P channels might play an important role in the maintenance of the resting membrane potential in sensory neurons of the autonomic nervous system, suggesting its participation in the modulation of vagal reflexes.

Citing Articles

Antiarrhythmic calcium channel blocker verapamil inhibits trek currents in sympathetic neurons.

Herrera-Perez S, Rueda-Ruzafa L, Campos-Rios A, Fernandez-Fernandez D, Lamas J Front Pharmacol. 2022; 13:997188.

PMID: 36188584 PMC: 9522527. DOI: 10.3389/fphar.2022.997188.

Are TREK Channels Temperature Sensors?.

Rueda-Ruzafa L, Herrera-Perez S, Campos-Rios A, Lamas J Front Cell Neurosci. 2021; 15:744702.

PMID: 34690704 PMC: 8526543. DOI: 10.3389/fncel.2021.744702.

Contribution of Neuronal and Glial Two-Pore-Domain Potassium Channels in Health and Neurological Disorders.

Luo Y, Huang L, Liao P, Jiang R Neural Plast. 2021; 2021:8643129.

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Contribution of K2P Potassium Channels to Cardiac Physiology and Pathophysiology.

Herrera-Perez S, Campos-Rios A, Rueda-Ruzafa L, Lamas J Int J Mol Sci. 2021; 22(12).

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