Potassium (BKCa) currents are reduced in microvascular smooth muscle cells from insulin-resistant rats

doi:10.1152/ajpheart.00382.2001

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Potassium (BK_Ca) currents are reduced in microvascular smooth muscle cells from insulin-resistant rats

Christiana Dimitropoulou¹, Guichun Han¹, Allison W. Miller³, Mariela Molero², Leslie C. Fuchs¹^,², Richard E. White¹, and Gerald O. Carrier¹

¹ Department of Pharmacology and Toxicology and ² Vascular Biology Center, Medical College of Georgia, Augusta, Georgia 30912; and ³ Department of Physiology and Pharmacology, Wake Forest School of Medicine, Winston-Salem, North Carolina 27157

Insulin resistance (IR) syndrome is associated with impaired vascular relaxation; however, the underlying pathophysiologyis unknown. Potassium channel activation causes vascular smoothmuscle hyperpolarization and relaxation. The present study determinedwhether a reduction in large conductance calcium- and voltage-activatedpotassium (BK_Ca) channel activity contributes to impaired vascularrelaxation in IR rats. BK_Ca channels were characterized in mesentericmicrovessels from IR and control rats. Macroscopic current densitywas reduced in myocytes from IR animals compared with controls.In addition, inhibition of BK_Ca channels with tetraethylammonium(1 mM) or iberiotoxin (100 nM) was greater in myocytes from control(70%) compared with IR animals (~20%). Furthermore, activationof BK_Ca channels with NS-1619 was three times more effective atincreasing outward current in cells from control versus IR animals.Single channel and Western blot analysis of BK_Ca channels revealedsimilar conductance, amplitude, voltage sensitivity, Ca²⁺ sensitivity, and expression density between the two groups. Thesedata provide the first direct evidence that microvascular potassiumcurrents are reduced in IR and suggest a molecular mechanism thatcould account for impaired vascular relaxation inIR.

potassium channels; BK_Ca channel

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