Activation of Hyperpolarization and Atypical Osmosensitivity of a Cl- Current in Rat Osteoblastic Cells

Overview

Journal J Membr Biol

Date 1994 Jun 1

PMID 7932652

Citations 9

Authors

D Chesnoy-Marchais

J Fritsch

Affiliations

Soon will be listed here.

Abstract

During whole-cell recording of rat osteoblastic cells with high-Cl- internal solutions, 10 sec hyperpolarizing jumps from 0 mV induce a slow inward current relaxation, which is shown to be carried by hyperpolarization-activated Cl- channels. This relaxation increases and becomes faster with stronger hyperpolarizations. It is insensitive to Cs+ ions but is blocked in a voltage-dependent manner by 4,4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS) 1 mM and is reduced by 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB) 0.1 mM. Cd2+ ions are potent blockers of this current, blocking completely above 300 microM. The amplitude of the Cl- current activated by a given hyperpolarization increases during the first 10-20 min of whole-cell recording. This evolution and the fact that some recently cloned Cl- channels have been reported to be activated both by hyperpolarization and by external hyposmolarity led us to investigate the effects of external osmolarity. Reducing the external osmolarity induces a large Cl- current. However, this hyposmolarity-induced Cl- current and the hyperpolarization-activated Cl- current are shown to be distinct; 1,9-dideoxy forskolin selectively blocks the hyposmolarity-activated current. We show that the hyperpolarization-activated Cl- current is osmosensitive, but in an unusual way: it is reduced by external hyposmolarity and is increased by external hyperosmolarity. Furthermore, these modulations are more pronounced for small hyperpolarizations. The osmosensitivity of the hyperpolarization-activated Cl- current suggests a mechanosensitivity (activation by positive external pressure) that is likely to be physiologically important to bone cells.

Citing Articles

Conformation-dependent regulation of inward rectifier chloride channel gating by extracellular protons.

Arreola J, Begenisich T, Melvin J J Physiol. 2002; 541(Pt 1):103-12.

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The chloride channel ClC-2 contributes to the inwardly rectifying Cl- conductance in cultured porcine choroid plexus epithelial cells.

Kajita H, Omori K, Matsuda H J Physiol. 2000; 523 Pt 2:313-24.

PMID: 10699077 PMC: 2269808. DOI: 10.1111/j.1469-7793.2000.t01-1-00313.x.

Expression of the voltage-gated chloride channel ClC-2 in rod bipolar cells of the rat retina.

Enz R, Ross B, Cutting G J Neurosci. 1999; 19(22):9841-7.

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Characterization of the hyperpolarization-activated chloride current in dissociated rat sympathetic neurons.

Clark S, Jordt S, Jentsch T, Mathie A J Physiol. 1998; 506 ( Pt 3):665-78.

PMID: 9503329 PMC: 2230754. DOI: 10.1111/j.1469-7793.1998.665bv.x.

Molecular dissection of gating in the ClC-2 chloride channel.

Jordt S, Jentsch T EMBO J. 1997; 16(7):1582-92.

PMID: 9130703 PMC: 1169762. DOI: 10.1093/emboj/16.7.1582.

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