Role of Ca2+-Activated K+ Channels in the Regulation of Membrane Potential and Tone of Smooth Muscle in Human Pial Arteries

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Circulation Research. 1996;79:881-886

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Role of Ca²⁺-Activated K⁺ Channels in the Regulation of Membrane Potential and Tone of Smooth Muscle in Human Pial Arteries

Natalia I. Gokina, Theresa D. Wellman, Rosemary D. Bevan, Carrie L. Walters, Paul L. Penar, John A. Bevan

the Totman Laboratory for Human Cerebrovascular Research, Departments of Pharmacology (N.I.G., T.D.W., R.D.B., J.A.B.) and Neurosurgery (P.L.P.), University of Vermont, College of Medicine, Burlington; and Neurological Surgeons (C.L.W.), Phoenix, Ariz.

Correspondence to Natalia I. Gokina, Department of Obstetrics and Gynecology, University of Vermont, College of Medicine, Burlington, VT 05405.

Smooth muscle cells (SMCs) in 58% of human pial arteries obtainedduring surgery showed no spontaneous contractions and displayeda stable resting membrane potential (MP) of -54.7±1.5mV. Those that exhibited periodic spontaneous contractions associatedwith periodic depolarization and generation of spontaneous actionpotentials (APs) had a less negative MP of -43.1±0.5mV (42%). Inhibition of calcium-activated potassium (K_Ca) channelsin the silent arteries by charybdotoxin (CTX) and tetraethylammoniumions (TEA) induced dose-dependent depolarization, AP generation,and contraction. TEA and CTX enhanced the spontaneous depolarizationand force in arteries that exhibited spontaneous activity. Theyalso prolonged the spontaneous APs up to several times and increasedtheir upstroke amplitude. Both TEA and CTX failed to producesignificant depolarization in arteries treated with nifedipine.It is concluded that K_Ca channels are important regulators ofhuman pial artery SMC resting MP and tone. They are also involvedin the control of AP amplitude and duration and the associatedcontractions. These data suggest that alterations in the activityof SMC K_Ca channels could be responsible for the appearanceof spontaneous activity in human pial arteries in vitro andthat impaired function of these channels might be related tovasospastic phenomena in human cerebral circulation.

Key Words: human cerebral arteries • membrane potential • action potentials • calcium-activated potassium channels • charybdotoxin

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