CHOLESTEROL SENSITIVITY AND LIPID RAFT TARGETING OF KIR 2.1 CHANNELS

doi:10.1529/biophysj.104.043273

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CHANNELS, RECEPTORS, AND ELECTRICAL SIGNALING

CHOLESTEROL SENSITIVITY AND LIPID RAFT TARGETING OF KIR 2.1 CHANNELS

Victor Romanenko ¹, Yun Fang ², Fitzroy Byfield ¹, Alexander J Travis ³, Carol Vandenberg ⁴, George H Rothblat ⁵ and Irena Levitan ¹^*

¹ University of Pennsylvania
² UNiversity of Pennsylvania
³ Cornell University
⁴ University of California - Santa Barbara
⁵ The Children's Hospital of Philadelphia, Philadelphia

^* To whom correspondence should be addressed. E-mail: ilevitan{at}mail.med.upenn.edu.

Submitted on April 2, 2004
Revised on May 12, 2004
Accepted on 21 September 2004

Abstract
This study investigates how changes in the level of cellularcholesterol affect inwardly-rectifying K+ channels belongingto a family of strong rectifiers (Kir2). Our earlier study hasshown that an increase in cellular cholesterol suppresses endogenousK+ current in vascular endothelial cells that is presumablyunderlied by Kir2.1 channels. Here we show that, indeed, cholesterolincrease strongly suppressed whole-cell Kir2.1 current whenthe channels were expressed in a null cell line. However, cholesterollevel had no effect on the unitary conductance and only littleeffect on the open probability of the channels. Inhibiting proteinsynthesis had no effect on the cholesterol sensitivity of Kir2.1and no cholesterol effect was observed on the total level ofKir2.1 protein. We suggest, therefore, that cholesterol modulatesnot the total amount of Kir2.1 protein but the number of activechannels in the membrane. Comparing the effects of cholesterolon the different members of the Kir2.x family, shows that Kir2.1and Kir2.2 have similar high sensitivity to cholesterol, Kir2.3is much less sensitive and Kir2.4 has an intermediate sensitivity.Finally, we show that Kir2.x channels partition virtually exclusivelyinto triton-insoluble membrane fractions indicating that thechannels are targeted into cholesterol-rich lipid rafts.

Key Words: K+ channels, cholesterol, endothelial cells, lipid rafts

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