Biomedicine & Pharmacotherapy (Sep 2022)
Emodin activates BK channel in vascular smooth muscle cells and relaxes the interlobar renal artery of rat
Abstract
Aim: The purpose of this study was to investigate the mechanical and electrophysiological effects of emodin on BK channels in the IRASMCs, of the rat. Methods: Isolated interlobar renal artery was used for vascular reactivity measurements using a pressure myograph system. Electrophysiological measurements of single vascular smooth muscle cells were conducted using whole-cell and cell-attached patch-clamp recording. Laser scanning confocal microscope technology was used to measure cytosolic calcium ion signals. Key results: Emodin relaxed the interlobar renal artery and enhanced the outward currents amplitude of IRASMCs in a concentration-dependent manner, and IbTX inhibited these emodin-induced outward currents. Incubation of IRASMCs in a calcium ion free medium for 30 min decreased the observed effects of emodin on IRASMCs membrane currents. Furthermore, the application of nimodipine, an L-Type calcium ion channel blocker, ryanodine, a ryanodine receptor modifier, and heparin, an IP3 receptor blocker, decreased the emodin-induced BK channel currents, respectively. BAPTA-AM, a selective calcium ion chelator, abolished the emodin-induced BK channel currents. Emodin repolarized cytomembrane and enhanced BK channel open probabilities and elevated cytosolic calcium ion concentration. Conclusion: The vasorelaxant effect of emodin on vessels is mediated through the activation of BK channels.
