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TRESK background K <sup>+</sup> channel deletion selectively uncovers enhanced mechanical and cold sensitivity

Aida Castellanos, Anna Pujol‐Coma, Alba Andrés‐Bilbé, Ahmed Negm, Gerard Callejo, David Soto, Jacques Noël, Núria Comes, Xavier Gasull

2020The Journal of Physiology44 citationsDOIOpen Access PDF

Abstract

KEY POINTS: channel is expressed in sensory neurons and acts as a brake to reduce neuronal activation. Deletion of the channel enhances the excitability of nociceptors. Skin nociceptive C-fibres show an enhanced activation by cold and mechanical stimulation in TRESK knockout animals. Channel deletion selectively enhances mechanical and cold sensitivity in mice, without altering sensitivity to heat. These results indicate that the channel regulates the excitability of specific neuronal subpopulations involved in mechanosensitivity and cold-sensing. ABSTRACT: channel) expression/function enhance excitability of sensory neurons, but its role in somatosensory perception and nociception is poorly understood. Here, we used a TRESK knockout (KO) mouse to address these questions. We show that TRESK regulates the sensitivity of sensory neurons in a modality-specific manner, contributing to mechanical and cold sensitivity but without any effect on heat sensitivity. Nociceptive neurons isolated from TRESK KO mice show a decreased threshold for activation and skin nociceptive C-fibres show an enhanced activation by cold and mechanical stimulation that was also observed in behavioural tests in vivo. TRESK is also involved in osmotic pain and in early phases of formalin-induced inflammatory pain, but not in the development of mechanical and heat hyperalgesia during chronic pain. In contrast, mice lacking TRESK present cold allodynia that is not further enhanced by oxaliplatin. In summary, genetic removal of TRESK uncovers enhanced mechanical and cold sensitivity, indicating that the channel regulates the excitability of specific neuronal subpopulations involved in mechanosensitivity and cold-sensing, acting as a brake to prevent activation by innocuous stimuli.

Topics & Concepts

NociceptorCold sensitivityNociceptionSomatosensory systemStimulationNeuroscienceSensory systemHyperalgesiaAllodyniaMechanosensationChemistryKnockout mousePotassium channelTRPM8Ion channelTransient receptor potential channelMedicineInternal medicineTRPV1ReceptorBiologyBiochemistryMutantGenePain Mechanisms and TreatmentsIon channel regulation and functionIon Channels and Receptors
TRESK background K <sup>+</sup> channel deletion selectively uncovers enhanced mechanical and cold sensitivity | Litcius