A potassium current activated by lemakalim and metabolic inhibition in rabbit mesenteric artery
- PMID: 1553259
- DOI: 10.1007/BF00378653
A potassium current activated by lemakalim and metabolic inhibition in rabbit mesenteric artery
Abstract
K+ channels which are inhibited by intracellular ATP (ATPi) (KATP channels) are thought to be the physiological target site of the K+ channel opening drugs (2) and to underlie a variety of physiological phenomena including hypoxia induced vasodilation. However, electrophysiological evidence for ATPi-regulated K+ currents in smooth muscle is scarce. We, therefore, investigated the effects of one K+ channel opener, lemakalim, and metabolic inhibition on the membrane conductance of freshly dissociated rabbit mesenteric artery smooth muscle cells, using the perforated-patch whole cell recording technique. The cells were metabolically inhibited with 1 mM iodoacetic acid and 50 microM dinitrophenol. Both lemakalim (0.1-3 microM) and metabolic inhibition activated a time-independent and glyburide sensitive K+ current at physiological membrane potentials. The similarities between the lemakalim and metabolic inhibition activated currents suggest that a single class of channels underlies both currents. These results are the first whole-cell current recordings to demonstrate the activation of a smooth muscle membrane conductance by metabolic inhibition, lending support to the view that hypoxia induced vasodilation arises from the activation of KATP channels.
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