Maxi-K channels localize to caveolae in human myometrium: a role for an actin-channel-caveolin complex in the regulation of myometrial smooth muscle K+ current

doi:10.1152/ajpcell.00399.2004

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Maxi-K channels localize to caveolae in human myometrium: a role for an actin-channel-caveolin complex in the regulation of myometrial smooth muscle K⁺ current

Adam M. Brainard,¹ Andrea J. Miller,¹ Jeffrey R. Martens,² and Sarah K. England¹

¹Department of Physiology and Biophysics, Carver College of Medicine, University of Iowa, Iowa City, Iowa; and ²Department of Pharmacology, University of Michigan, Ann Arbor, Michigan

Submitted 15 August 2004 ; accepted in final form 8 February 2005

Multiple cell-signaling pathways converge to modulate large-conductance,voltage- and Ca²⁺-sensitive K⁺ channel (maxi-K channel) activityand buffer cell excitability in human myometrial smooth musclecells (hMSMCs). Recent evidence indicates that maxi-K channelproteins can target to membrane microdomains; however, theirassociation with other proteins within these macromolecularcomplexes has not been elucidated. Biochemical isolation ofdetergent-resistant membrane fractions from human myometriumdemonstrates the presence of maxi-K channels in lipid raft microdomains,which cofractionate with caveolins. In both nonpregnant andlate-pregnant myometrium, maxi-K channels associate and colocalizewith caveolar scaffolding proteins caveolin-1 and caveolin-2,but not caveolin-3. Disruption of cultured hMSMC caveolar complexesby cholesterol depletion with cyclodextrin increases an iberiotoxin-sensitiveK⁺ current. Coimmunoprecipitations have indicated that the maxi-Kchannel also is associated with both ${alpha}$ - and ${gamma}$ -actin. Immunocytochemicalanalysis indicates colocalization of maxi-K channels, actin,and caveolin-1 in primary cultures of hMSMCs. Further experimentsusing immunoelectron microscopy have shown the proximity ofboth actin and the maxi-K channel within the same cell surfacecaveolar structures. Functionally, disruption of the actin cytoskeletonin cultured hMSMCs by cytochalasin D and latrunculin A greatlyincreased the open-state probability of the channel, while stabilizationof actin cytoskeleton with jasplakinolide abolished the effectof latrunculin A. These data indicate that the actin cytoskeletonis involved as part of a caveolar complex in the regulationof myometrial maxi-K channel function.

potassium channel; membrane microdomain

Address for reprint requests and other correspondence: S. K. England, Dept. of Physiology and Biophysics, Univ. of Iowa Carver College of Medicine, 5-660 Bowen Science Bldg., Iowa City, IA 52242 (e-mail: sarah-england{at}uiowa.edu)

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