Sensory Mechanotransduction at Membrane-matrix Interfaces

Overview

Journal Pflugers Arch

Specialty Physiology

Date 2014 Jul 2

PMID 24981693

Citations 21

Authors

Kate Poole

Mirko Moroni

Gary R Lewin

Affiliations

Soon will be listed here.

Abstract

Sensory cells specialized to detect extremely small mechanical changes are common to the auditory and somatosensory systems. It is widely accepted that mechanosensitive channels form the core of the mechanoelectrical transduction in hair cells as well as the somatic sensory neurons that underlie the sense of touch and mechanical pain. Here, we will review how the activation of such channels can be measured in a meaningful physiological context. In particular, we will discuss the idea that mechanosensitive channels normally occur in transmembrane complexes that are anchored to extracellular matrix components (ECM) both in vitro and in vivo. One component of such complexes in sensory neurons is the integral membrane scaffold protein STOML3 which is a robust physiological regulator of native mechanosensitive currents. In order to better characterize such channels in transmembrane complexes, we developed a new electrophysiological method that enables the quantification of mechanosensitive current amplitude and kinetics when activated by a defined matrix movement in cultured cells. The results of such studies strongly support the idea that ion channels in transmembrane complexes are highly tuned to detect movement of the cell membrane in relation to the ECM.

Citing Articles

Stomatin-like protein 3 modulates the responses of Aδ, but not C fiber bone afferent neurons to noxious mechanical stimulation in an animal model of acute experimental bone pain.

Morgan M, Thai J, Nencini S, Xu J, Ivanusic J Mol Pain. 2023; 19:17448069231222407.

PMID: 38073226 PMC: 10734363. DOI: 10.1177/17448069231222407.

TREK channels in Mechanotransduction: a Focus on the Cardiovascular System.

Herrera-Perez S, Lamas J Front Cardiovasc Med. 2023; 10:1180242.

PMID: 37288256 PMC: 10242076. DOI: 10.3389/fcvm.2023.1180242.

Mechanosignals in abdominal aortic aneurysms.

Lowis C, Ramara Winaya A, Kumari P, Rivera C, Vlahos J, Hermantara R Front Cardiovasc Med. 2023; 9:1021934.

PMID: 36698932 PMC: 9868277. DOI: 10.3389/fcvm.2022.1021934.

Vascular mechanotransduction.

Davis M, Earley S, Li Y, Chien S Physiol Rev. 2023; 103(2):1247-1421.

PMID: 36603156 PMC: 9942936. DOI: 10.1152/physrev.00053.2021.

Lack of evidence for participation of TMEM150C in sensory mechanotransduction.

Ojeda-Alonso J, Begay V, Garcia-Contreras J, Campos-Perez A, Purfurst B, Lewin G J Gen Physiol. 2022; 154(12).

PMID: 36256908 PMC: 9582506. DOI: 10.1085/jgp.202213098.

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