Affiliation:
1. Department of Anesthesiology, School of Medicine, University of California, Los Angeles, California 90095-7115
Abstract
Volatile anesthetics modulate the function of various K+ channels. We previously reported that isoflurane induces an increase in macroscopic currents and a slowing down of current deactivation of Shaker H4 IR K+ channels. To understand the single-channel basis of these effects, we performed nonstationary noise analysis of macroscopic currents and analysis of single channels in patches from Xenopus oocytes expressing Shaker H4 IR. Isoflurane (1.2% and 2.5%) induced concentration-dependent, partially reversible increases in macroscopic currents and in the time course of tail currents. Noise analysis of currents (70 mV) revealed an increase in unitary current (∼17%) and maximum open probability (∼20%). Single-channel conductance was larger (∼20%), and opening events were more stable, in isoflurane. Tail-current slow time constants increased by 41% and 136% in 1.2% and 2.5% isoflurane, respectively. Our results show that, in a manner consistent with stabilization of the open state, isoflurane increased the macroscopic conductance of Shaker H4 IR K+ channels by increasing the single-channel conductance and the open probability.
Publisher
American Physiological Society
Cited by
29 articles.
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