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Evidence That Outwardly Rectifying Cl <sup>−</sup> Channels Underlie Volume-Regulated Cl <sup>−</sup> Currents in Heart

Dayue Darrel Duanthe Department of Pharmacology and Therapeutics (D.D., S.N.), McGill University, Montreal, Canada; the Department of Medicine (D.D., S.N.), University of Montreal; the Department of Medicine and Research Centre (D.D., S.N.), Montreal Heart Institute; and the Department of Physiology and Cell Biology (D.D., J.R.H.), University of Nevada, School of Medicine, RenoJoseph R. Humethe Department of Pharmacology and Therapeutics (D.D., S.N.), McGill University, Montreal, Canada; the Department of Medicine (D.D., S.N.), University of Montreal; the Department of Medicine and Research Centre (D.D., S.N.), Montreal Heart Institute; and the Department of Physiology and Cell Biology (D.D., J.R.H.), University of Nevada, School of Medicine, RenoStanley Nattelthe Department of Pharmacology and Therapeutics (D.D., S.N.), McGill University, Montreal, Canada; the Department of Medicine (D.D., S.N.), University of Montreal; the Department of Medicine and Research Centre (D.D., S.N.), Montreal Heart Institute; and the Department of Physiology and Cell Biology (D.D., J.R.H.), University of Nevada, School of Medicine, Reno
1997en
ABI

Аннотация

Swelling-induced Cl- current (ICl.swell) is present in most cardiac tissues, but the unitary channel underlying ICls.well is unknown. We used the cell-attached patch-clamp technique to assess the properties of single channels underlying ICls.well and the basally active Cl- current (ICl.b) in rabbit atrial myocytes. Under isotonic conditions, single outwardly rectifying Cl- channels (ORCCs) with a slope conductance of 28 +/- 1 pS at the reversal potential were observed in 21 (5.7%) of 367 patches. Unconditional kinetic analysis revealed at least three open and four closed-channel states. Hypotonic superfusion-induced swelling resulted in the appearance of active channels in 41 (15.5%) of 265 patches without channel activity under isotonic conditions and caused a second active channel to appear in 3 of 14 patches showing a single channel under isotonic conditions. Overall, channels were seen in 54 of 336 patches under hypotonic conditions (16.1%, P < .001 versus isotonic conditions). The current-voltage relations, reversal potential-[Cl-]o relations, open probability, and kinetics of swelling-induced channels were indistinguishable from those of ORCCs under isotonic conditions. Unitary ORCCs, ICl.b, and ICl.swell were strongly and similarly inhibited by tamoxifen. Swelling-induced increases in macroscopic Cl- current were attributable to an increase in the number of active ORCCs with no significant effects on single-channel amplitude or open probability. Estimated macroscopic currents based on cell surface area, patch dimensions, single-channel ORCC current amplitude, open probability, and density were consistent with measured values of ICl.b and ICl.swell. We conclude that ORCCs underlie volume-regulated basal and swelling-induced Cl- currents in isolated rabbit atrial myocytes.

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