红细胞膜自发内翻小泡形成的机制。
Mechanism of spontaneous inside-out vesiculation of red cell membranes.
作者信息
Lew V L, Hockaday A, Freeman C J, Bookchin R M
机构信息
Physiological Laboratory, Cambridge University, United Kingdom.
出版信息
J Cell Biol. 1988 Jun;106(6):1893-901. doi: 10.1083/jcb.106.6.1893.
Abstract
In certain conditions, human red cell membranes spontaneously form inside out vesicles within 20 min after hypotonic lysis. Study of the geometry of this process now reveals that, contrary to earlier views of vesiculation by endocytosis or by the mechanical shearing of cytoskeleton-depleted membrane, lysis generates a persistent membrane edge which spontaneously curls, cuts, and splices the membrane surface to form single or concentric vesicles. Analysis of the processes by which proteins may stabilize a free membrane edge led us to formulate a novel zip-type mechanism for membrane cutting-splicing and fusion even in the absence of free edges. Such protein-led membrane fusion represents an alternative to mechanisms of membrane fusion based on phospholipid interactions, and may prove relevant to processes of secretion, endocytosis, phagocytosis, and membrane recycling in many cell types.
摘要
在某些条件下,人红细胞膜在低渗裂解后20分钟内会自发形成外翻囊泡。对这一过程几何形状的研究现在表明,与早期关于通过内吞作用或通过去除细胞骨架的膜的机械剪切形成囊泡的观点相反,裂解会产生一个持久的膜边缘,该边缘会自发卷曲、切割和拼接膜表面以形成单个或同心囊泡。对蛋白质可能稳定游离膜边缘的过程的分析使我们提出了一种即使在没有游离边缘的情况下也能进行膜切割-拼接和融合的新型拉链式机制。这种由蛋白质引导的膜融合是基于磷脂相互作用的膜融合机制的一种替代方式,并且可能与许多细胞类型中的分泌、内吞、吞噬和膜循环过程相关。
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