Interactions of Phospholipids with the Potassium Channel KcsA

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Interactions of Phospholipids with the Potassium Channel KcsA

Ian M. Williamson, Simon J. Alvis, J. Malcolm East, and Anthony G. Lee

Division of Biochemistry and Molecular Biology, School of Biological Sciences, University of Southampton, Southampton SO16 7PX, United Kingdom

The potassium channel KcsA from Streptomyces lividans has been reconstituted into bilayers of phosphatidylcholines and fluorescencespectroscopy has been used to characterize the response of KcsAto changes in bilayer thickness. The Trp residues in KcsA formtwo bands, one on each side of the membrane. Trp fluorescenceemission spectra and the proportion of the Trp fluorescence intensityquenchable by I hardly vary in the lipid chain length range C10 to C24, suggestingefficient hydrophobic matching between KcsA and the lipid bilayerover this range. Measurements of fluorescence quenching for KcsAreconstituted into mixtures of brominated and nonbrominated phospholipidshave been analyzed to give binding constants of lipids for KcsA,relative to that for dioleoylphosphatidylcholine (di(C18:1)PC).Relative lipid binding constants increase by only a factor ofthree with increasing chain length from C10 to C22 with a decreasefrom C22 to C24. Strongest binding to di(C22:1)PC correspondsto a state in which the side chains of the lipid-exposed Trp residuesare likely to be located within the hydrocarbon core of the lipidbilayer. It is suggested that matching of KcsA to thinner bilayersthan di(C24:1)PC is achieved by tilting of the transmembrane $alpha$ -helicesin KcsA. Measurements of fluorescence quenching of KcsA in bilayersof brominated phospholipids as a function of phospholipid chainlength suggest that in the chain length range C14 to C18 the Trpresidues move further away from the center of the lipid bilayerwith increasing chain length, which can be partly explained bya decrease in helix tilt angle with increasing bilayer thickness.In the chain length range C18 to C24 it is suggested that theTrp residues become more buried within the hydrocarbon core ofthebilayer.

Biophys J, October 2002, p. 2026-2038, Vol. 83, No. 4
© 2002 by the Biophysical Society 0006-3495/02/10/2026/13 $2.00

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