Separation of a Cholesterol-enriched Microdomain Involved in T-cell Signal Transduction

We isolated a cholesterol-enriched membrane subpopulation from the so-called lipid raft fractions of Jurkat T-cells by taking advantage of its selective binding to a cholesterol-binding probe, BCtheta. The BCtheta-bound membrane subpopulation has a much higher cholesterol/phospholipid (C/P) molar ratio (approximately 1.0) than the BCtheta-unbound population in raft fractions (approximately 0.3). It contains not only the raft markers GM1 and flotillin, but also some T-cell receptor (TCR) signalling molecules, including Lck, Fyn and LAT. In addition, Csk and PAG, inhibitory molecules of the TCR signalling cascade, are also contained in the BCtheta-bound membranes. On the other hand, CD3epsilon, CD3zeta and Zap70 are localized in the BCtheta-unbound membranes, segregated from other TCR signalling molecules under nonstimulated conditions. However, upon stimulation of TCR, portions of CD3epsilon, CD3zeta and Zap70 are recruited to the BCtheta-bound membranes. The Triton X-100 concentration used for lipid raft preparation affects neither the C/P ratio nor protein composition of the BCtheta-bound membranes. These results show that our method is useful for isolating a particular cholesterol-rich membrane domain of T-cells, which could be a core domain controlling the TCR signalling cascade.