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* Institute of Biological Psychiatry, Sct. Hans Hospital, Roskilde, DK-4000, Denmark; Department of Physiology and Biophysics, Cornell University, Weill Medical College, New York, New York 10021 USA; and August Krogh Institute, University of Copenhagen, Copenhagen Ø, DK-2100, Denmark
Correspondence: Address reprint requests to Jens A. Lundbæk, Institute of Biological Psychiatry, Sct. Hans Hospital, 2 Boserupvej, Roskilde, DK-4000, Denmark. Tel.: (45) 46 33 48 35; Fax.: (45) 46 33 43 67; E-mail: lundbaek{at}dadlnet.dk.
The mechanism(s) underlying the sorting of integral membrane proteins between the Golgi complex and the plasma membrane remain uncertain because no specific Golgi retention signal has been found. Moreover one can alter a protein's eventual localization simply by altering the length of its transmembrane domain (TMD). M. S. Bretscher and S. Munro (Science. 261:1280–1281, 1993) therefore proposed a physical sorting mechanism based on the hydrophobic match between the proteins' TMD and the bilayer thickness, in which cholesterol would regulate protein sorting by increasing the lipid bilayer thickness. In this model, Golgi proteins with short TMDs would be excluded from cholesterol-enriched domains (lipid rafts) that are incorporated into transport vesicles destined for the plasma membrane. Although attractive, this model remains unproven. We therefore evaluated the energetic feasibility of a cholesterol-dependent sorting process using the theory of elastic liquid crystal deformations. We show that the distribution of proteins between cholesterol-enriched and cholesterol-poor bilayer domains can be regulated by cholesterol-induced changes in the bilayer physical properties. Changes in bilayer thickness per se, however, have only a modest effect on sorting; the major effect arises because cholesterol changes also the bilayer material properties, which augments the energetic penalty for incorporating short TMDs into cholesterol-enriched domains. We conclude that cholesterol-induced changes in the bilayer physical properties allow for effective and accurate sorting which will be important generally for protein partitioning between different membrane domains.
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