Sphingolipid–cholesterol rafts diffuse as small entities in the plasma membrane of mammalian cells

A Pralle, P Keller, EL Florin, K Simons… - The Journal of cell …, 2000 - rupress.org
A Pralle, P Keller, EL Florin, K Simons, JKH Hörber
The Journal of cell biology, 2000rupress.org
To probe the dynamics and size of lipid rafts in the membrane of living cells, the local
diffusion of single membrane proteins was measured. A laser trap was used to confine the
motion of a bead bound to a raft protein to a small area (diam≤ 100 nm) and to measure its
local diffusion by high resolution single particle tracking. Using protein constructs with
identical ectodomains and different membrane regions and vice versa, we demonstrate that
this method provides the viscous damping of the membrane domain in the lipid bilayer …
To probe the dynamics and size of lipid rafts in the membrane of living cells, the local diffusion of single membrane proteins was measured. A laser trap was used to confine the motion of a bead bound to a raft protein to a small area (diam ≤ 100 nm) and to measure its local diffusion by high resolution single particle tracking. Using protein constructs with identical ectodomains and different membrane regions and vice versa, we demonstrate that this method provides the viscous damping of the membrane domain in the lipid bilayer. When glycosylphosphatidylinositol (GPI) -anchored and transmembrane proteins are raft-associated, their diffusion becomes independent of the type of membrane anchor and is significantly reduced compared with that of nonraft transmembrane proteins. Cholesterol depletion accelerates the diffusion of raft-associated proteins for transmembrane raft proteins to the level of transmembrane nonraft proteins and for GPI-anchored proteins even further. Raft-associated GPI-anchored proteins were never observed to dissociate from the raft within the measurement intervals of up to 10 min. The measurements agree with lipid rafts being cholesterol-stabilized complexes of 26 ± 13 nm in size diffusing as one entity for minutes.
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