A cationic nonselective stretch-activated channel in the Reissner’s membrane of the guinea pig cochlea

Author:

Yeh Te-Huei12,Herman Philippe1,Tsai Ming-Cheng3,Huy Patrice Tran Ba1,Van Den Abbeele Thierry1

Affiliation:

1. Laboratoire d’Otologie Experimentale, Faculté de Médecine Lariboisiére- Saint Louis, 75010 Paris, France; and

2. Department of Otolaryngology, National Taiwan University Hospital, and

3. Department of Pharmacology, National Taiwan University College of Medicine, Taipei, Taiwan, Republic of China

Abstract

The Reissner’s membrane (RM) separates in the mammalian cochlea the K+-rich endolymph from the Na+-rich perilymph. The patch-clamp technique was used to investigate the transport mechanisms in epithelial cells of RM freshly dissected from the guinea pig cochlea. This study shows a stretch-activated nonselective cationic channel (SA channel) with a linear current-voltage relationship (23 pS) highly selective for cations over anions [K+ ≈ Na+ (1) > Ba2+ (0.65) > Ca2+ (0.32) ≫ Cl (0.14)] and activated by the intrapipette gradient pressure. The open probability-pressure relationship is best fitted by a Boltzmann distribution (half-maximal pressure = 37.8 mmHg, slope constant = 8.2 mmHg). SA channels exhibit a strong voltage dependency and are insensitive to internal Ca2+, ATP, and fenamates but are blocked by 1 μM GdCl3 in the pipette. They are reversibly activated by in situ superfusion of the cell with hyposmotic solutions. Kinetic studies show that depolarization and mechanical or osmotic stretch modify the closed and open time constants probably by a different mechanism. These channels could participate in pressure-induced modifications of ionic permeability of the RM.

Publisher

American Physiological Society

Subject

Cell Biology,Physiology

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