Modulation of BK(Ca) channel activity by fatty acids: structural requirements and mechanism of action
Department of Physiology
Amines; Animals; Arachidonic Acid; Cell Membrane; Electrochemistry; Fatty Acids; Ion Channel Gating; Large-Conductance Calcium-Activated Potassium Channels; Muscle, Smooth, Vascular; Myristic Acid; Oleic Acid; Phosphoprotein Phosphatase; Potassium Channels, Calcium-Activated; Protein Kinases; Rabbits; Sphingosine; Structure-Activity Relationship
Life Sciences | Medicine and Health Sciences
To determine the mechanism of fatty acid modulation of rabbit pulmonary artery large-conductance Ca2+ -activated K+ (BK(Ca)) channel activity, we studied effects of fatty acids and other lipids on channel activity in excised patches with patch-clamp techniques. The structural features of the fatty acid required to increase BK(Ca) channel activity (or average number of open channels, NP(o)) were identified to be the negatively charged head group and a sufficiently long (C > 8) carbon chain. Positively charged lipids like sphingosine, which have a sufficiently long alkyl chain (C >or= 8), produced a decrease in NP(o). Neutral and short-chain lipids did not alter NP(o). Screening of membrane surface charge with high-ionic-strength bathing solutions (330 mM K+ or 130 mM K+, 300 mM Na+) did not alter the modulation of the BK(Ca) channel NP(o) by fatty acids and other charged lipids, indicating that channel modulation is unlikely to be due to an alteration of the membrane electric field or the attraction of local counterions to the channel. Fatty acids and other negatively charged lipids were able to modulate BK(Ca) channel activity in bathing solutions containing 0 mM Ca2+, 20 mM EGTA, suggesting that calcium is not required for this modulation. Together, these results indicate that modulation of BK(Ca) channels by fatty acids and other charged lipids most likely occurs by their direct interaction with the channel protein itself or with some other channel-associated component.
DOI of Published Version
Am J Physiol Cell Physiol. 2002 Nov;283(5):C1441-53. Link to article on publisher's site
American journal of physiology. Cell physiology
Clarke, Alison L.; Petrou, Steven; Walsh, John V. Jr.; and Singer, Joshua J., "Modulation of BK(Ca) channel activity by fatty acids: structural requirements and mechanism of action" (2002). Open Access Articles. 114.