Tilney L G, Detmers P
J Cell Biol. 1975 Sep;66(3):508-20. doi: 10.1083/jcb.66.3.508.
Actin was isolated from erythrocyte ghosts. It is identical to muscle actin in its molecular weight, net charge, ability to polymerize into filaments with the double helical morphology, and its decoration with heavy meromyosin (HMM). when erythrocyte ghosts are incubated in 0.1 mM EDTA, actin and spectrin are solubilized. Spectrin has a larger molecular weight than muscle myosin. When salt is added to the EDTA extract, a branching filamentous polymer is formed. However, when muscle actin and the EDTA extract are mixed together in the presence of salt, the viscosity achieved is less than the viscosity of the solution if spectrin is omitted. Thus, spectrin seems to inhibit the polymerization of actin. If the actin is already polymerized, the addition of spectrin increases the viscosity of the solution, presumably by cross-linking the actin filaments. The addition of HMM of trypsin to erythrocyte ghosts results in filament formation in situ. These agents apparently act by detaching erythrocyte actin from spectrin, thereby allowing the polmerization of one or both proteins to occur. Since filaments are not present in untreated erythrocyte ghosts, we conclude that erythrocyte actin and spectrin associate to form an anastomosing network beneath the erythrocyte membrane. This network presumably functions in restricting the lateral movement of membrane-penetrating particles.
肌动蛋白是从红细胞膜中分离出来的。它在分子量、净电荷、聚合成具有双螺旋形态的细丝的能力以及用重酶解肌球蛋白(HMM)进行标记方面与肌肉肌动蛋白相同。当红细胞膜在0.1 mM乙二胺四乙酸(EDTA)中孵育时,肌动蛋白和血影蛋白会溶解。血影蛋白的分子量比肌肉肌球蛋白大。当向EDTA提取物中加入盐时,会形成一种分支丝状聚合物。然而,当在有盐存在的情况下将肌肉肌动蛋白和EDTA提取物混合在一起时,所达到的粘度低于省略血影蛋白时溶液的粘度。因此,血影蛋白似乎会抑制肌动蛋白的聚合。如果肌动蛋白已经聚合,加入血影蛋白会增加溶液的粘度,大概是通过交联肌动蛋白丝来实现的。向红细胞膜中加入胰蛋白酶处理的HMM会导致原位形成细丝。这些试剂显然是通过使红细胞肌动蛋白与血影蛋白分离而起作用的,从而使一种或两种蛋白质发生聚合。由于在未处理的红细胞膜中不存在细丝,我们得出结论:红细胞肌动蛋白和血影蛋白结合形成红细胞膜下方的吻合网络。这个网络大概在限制膜穿透颗粒的横向运动中起作用。