Yethiraj Arun, Weisshaar James C
Department of Chemistry, University of Wisconsin, Madison, Wisconsin 53706, USA.
Biophys J. 2007 Nov 1;93(9):3113-9. doi: 10.1529/biophysj.106.101931. Epub 2007 Jul 27.
The existence of lipid rafts in live cells remains a topic of lively debate. Although large, micrometer-sized rafts are readily observed in artificial membranes, attempts to observe analogous domains in live cells place an upper limit of approximately 5 nm on their size. We suggest that integral membrane proteins attached to the cytoskeleton act as obstacles that limit the size of lipid domains. Computer simulations of a binary lipid mixture show that the presence of protein obstacles at only 5-10% by area dramatically reduces the tendency of the lipids to phase separate. These calculations emphasize the importance of spatial heterogeneity in cell membranes, which limits the transferability of conclusions drawn from artificial membranes to live cells.
活细胞中脂筏的存在仍是一个激烈争论的话题。尽管在人工膜中很容易观察到微米级的大脂筏,但在活细胞中观察类似结构域时,其大小上限约为5纳米。我们认为,附着于细胞骨架的整合膜蛋白起到了限制脂结构域大小的障碍作用。对二元脂质混合物的计算机模拟表明,仅占膜面积5%-10%的蛋白质障碍的存在就会显著降低脂质发生相分离的倾向。这些计算强调了细胞膜中空间异质性的重要性,这限制了从人工膜得出的结论向活细胞的可转移性。