Hypercapnic Acidosis Activates KATP Channels in Vascular Smooth Muscles

doi:10.1161/01.RES.0000075601.95738.6D

Circulation Research. 2003
Published online before print May 8, 2003, doi: 10.1161/01.RES.0000075601.95738.6D

A more recent version of this article appeared on June 13, 2003

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Submitted on January 24, 2003
Revised on April 24, 2003
Accepted on April 25, 2003

Hypercapnic Acidosis Activates K_ATP Channels in Vascular Smooth Muscles

Xueren Wang ; Jianping Wu ; Li Li ; Fuxue Chen ; Runping Wang ; and Chun Jiang ^*

From the Department of Biology, Georgia State University, Atlanta, Ga.

^* To whom correspondence should be addressed. E-mail: cjiang{at}gsu.edu.

ATP-sensitive K⁺ channels (K_ATP) couple intermediary metabolismto cellular activity, and may play a role in the autoregulationof vascular tones. Such a regulation requires cellular mechanismsfor sensing O₂, CO₂, and pH. Our recent studies have shown thatthe pancreatic K_ATP isoform (Kir6.2/SUR1) is regulated by CO₂/pH.To identify the vascular K_ATP isoform(s) and elucidate its responseto hypercapnic acidosis, we performed these studies on vascularsmooth myocytes (VSMs). Whole-cell and single-channel currentswere studied on VSMs acutely dissociated from mesenteric arteriesand HEK293 cells expressing Kir6.1/SUR2B. Hypercapnic acidosisactivated an inward rectifier current that was K⁺-selectiveand sensitive to levcromakalim and glibenclamide with unitaryconductance of ${approx}$ 35pS. The maximal activation occurred at pH 6.5to 6.8, and the current was inhibited at pH 6.2 to 5.9. Thecloned Kir6.1/SUR2B channel responded to hypercapnia and intracellularacidification in an almost identical pattern to the VSM current.In situ hybridization histochemistry revealed expression ofKir6.1/SUR2B mRNAs in mesenteric arteries. Hypercapnia producedvasodilation of the isolated and perfused mesenteric arteries.Pharmacological interference of the K_ATP channels greatly eliminatedthe hypercapnic vasodilation. These results thus indicate thatthe Kir6.1/SUR2B channel is a critical player in the regulationof vascular tones during hypercapnic acidosis.

Key words: K_ATP • Kir6.1 • hypercapnia • ATP • vasodilation

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