Oosterlaken-Dijksterhuis M A, Haagsman H P, van Golde L M, Demel R A
Laboratory of Veterinary Biochemistry, Utrecht University, The Netherlands.
Biochemistry. 1991 Nov 12;30(45):10965-71. doi: 10.1021/bi00109a022.
Pulmonary surfactant proteins, SP-B and SP-C, if present in preformed monolayers can induce lipid insertion from lipid vesicles into the monolayer after the addition of (divalent) cations [Oosterlaken-Dijksterhuis, M. A., Haagsman, H. P., van Golde, L. M. G., & Demel, R. A. (1991) Biochemistry 30, 8276-8287]. This model system was used to study the mechanisms by which SP-B and SP-C induce monolayer formation from vesicles. Lipid insertion proceeds irrespectively of the molecular class, and PG is not required for this process. In addition to lipids that are immediately inserted from vesicles into the monolayer, large amounts of vesicles are bound to the monolayer and their lipids eventually inserted when the surface area is expanded. SP-B and SP-C are directly responsible for the binding of vesicles to the monolayer. By weight, the vesicle binding capacity of SP-B is approximately 4 times that of SP-C. For vesicle binding and insertion, the formation of close contacts between monolayer and vesicles is essential. SP-B and SP-C show very similar surface properties. Both proteins form extremely stable monolayers (collapse pressures 36-37 mN/m) of alpha-helical structures oriented parallel to the interface. In monolayers consisting of DPPC and SP-B or SP-C, an increase in mean molecular area is observed, which is mainly attributed to the phospholipid. This will greatly enhance the insertion of new lipid material into the monolayer. The results of this study suggest that the surface properties and the hydrophobic nature of SP-B and SP-C are important for the protein-mediated monolayer formation.
肺表面活性蛋白SP - B和SP - C如果存在于预先形成的单分子层中,在添加(二价)阳离子后可诱导脂质从脂质囊泡插入到单分子层中[奥斯特拉肯 - 迪克斯特huis,M. A.,哈格斯曼,H. P.,范戈尔de,L. M. G.,&德梅尔,R. A.(1991年)《生物化学》30,8276 - 8287]。该模型系统用于研究SP - B和SP - C诱导囊泡形成单分子层的机制。脂质插入与分子类别无关,并且该过程不需要磷脂酰甘油(PG)。除了直接从囊泡插入到单分子层中的脂质外,大量囊泡与单分子层结合,当表面积扩大时其脂质最终插入。SP - B和SP - C直接负责囊泡与单分子层的结合。按重量计算,SP - B的囊泡结合能力约为SP - C的4倍。对于囊泡结合和插入,单分子层与囊泡之间形成紧密接触至关重要。SP - B和SP - C表现出非常相似的表面性质。两种蛋白质都形成了极其稳定的单分子层(塌陷压力为36 - 37 mN/m),其α - 螺旋结构平行于界面定向。在由二棕榈酰磷脂酰胆碱(DPPC)和SP - B或SP - C组成的单分子层中,观察到平均分子面积增加,这主要归因于磷脂。这将极大地增强新脂质材料插入到单分子层中。本研究结果表明,SP - B和SP - C的表面性质和疏水性对于蛋白质介导的单分子层形成很重要。
