Hypoxic fetoplacental vasoconstriction in humans is mediated by potassium channel inhibition

doi:10.1152/ajpheart.01033.2001

Hypoxic fetoplacental vasoconstriction in humans is mediated by potassium channel inhibition

Václav Hampl¹^,², Jana Bíbová¹^,², Zbynek Stra $n$ ák³, Xichen Wu⁴, Evangelos D. Michelakis⁴^,⁵, Kyoko Hashimoto⁴, and Stephen L. Archer⁴^,⁵

¹ Department of Physiology, Charles University Second Medical School, 15000 Prague 5; ² Centre for Experimental Cardiovascular Research, 14220 Prague 4; ³ Institute for the Care of Mother and Child, 14300 Prague 4-Podolí, Czech Republic; ⁴ Vascular Biology Group, Cardiology Division, University of Alberta School of Medicine, Edmonton; and ⁵ Physiology Department, University of Alberta, Edmonton, Alberta T6G 2B7, Canada

Fetal to maternal blood flow matching in the placenta, necessary for optimal fetal blood oxygenation, may occur via hypoxicfetoplacental vasoconstriction (HFPV). We hypothesized that HFPVis mediated by K⁺ channel inhibition in fetoplacental vascular smooth muscle, asoccurs in several other O₂-sensitive tissues. With the use ofan isolated human placental cotyledon perfused at a constant flowrate, we found that hypoxia reversibly increased perfusion pressureby >20%. HFPV was unaffected by cyclooxygenase or nitric oxidesynthase inhibition. HFPV and 4-aminopyridine, an inhibitor ofvoltage-dependent K⁺ (K_v) channels, increased pressure in a nonadditive manner, suggestingthey act via a common mechanism. Iberiotoxin, a large conductanceCa²⁺-sensitive K⁺ (BK_Ca) channel inhibitor, had little effect on normoxic pressure.Immunoblotting and RT-PCR showed expression of several putativeO₂-sensitive K⁺ channels in peripheral fetoplacental vessels. In patch-clampexperiments with smooth muscle cells isolated from peripheralfetoplacental arteries, hypoxia reversibly inhibited K_v but notBK_Ca or ATP-dependent currents. We conclude that human fetoplacentalvessels constrict in response to hypoxia. This response is largelymediated by hypoxic inhibition of K_v channels in the smooth muscleof small fetoplacentalarteries.

fetal growth retardation; Kv1.5 channel; O₂ sensing

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