University of Wollongong
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Touch sensation requires the mechanically gated ion channel ELKIN1

journal contribution
posted on 2024-11-17, 13:04 authored by Sampurna Chakrabarti, Jasmin D Klich, Mohammed A Khallaf, Amy J Hulme, Oscar Sánchez-Carranza, Zuzanna M Baran, Alice Rossi, Angela Tzu Lun Huang, Tobias Pohl, Raluca Fleischer, Carina Fürst, Annette Hammes, Valérie Bégay, Hanna Hörnberg, Rocio K Finol-Urdaneta, Kate Poole, Mirella Dottori, Gary R Lewin
Touch perception is enabled by mechanically activated ion channels, the opening of which excites cutaneous sensory endings to initiate sensation. In this study, we identify ELKIN1 as an ion channel likely gated by mechanical force, necessary for normal touch sensitivity in mice. Touch insensitivity in Elkin1−/− mice was caused by a loss of mechanically activated currents (MA currents) in around half of all sensory neurons activated by light touch (low-threshold mechanoreceptors). Reintroduction of Elkin1 into sensory neurons from Elkin1−/− mice restored MA currents. Additionally, small interfering RNA–mediated knockdown of ELKIN1 from induced human sensory neurons substantially reduced indentation-induced MA currents, supporting a conserved role for ELKIN1 in human touch. Our data identify ELKIN1 as a core component of touch transduction in mice and potentially in humans.

Funding

Friedreich's Ataxia Research Alliance (789128)

History

Journal title

Science

Volume

383

Issue

6686

Pagination

992-998

Language

English

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