麻疹病毒的细胞进入:长杂交受体使结合与膜融合解偶联。
Cell entry by measles virus: long hybrid receptors uncouple binding from membrane fusion.
作者信息
Buchholz C J, Schneider U, Devaux P, Gerlier D, Cattaneo R
机构信息
Institut für Molekularbiologie, Universität Zürich, Switzerland.
出版信息
J Virol. 1996 Jun;70(6):3716-23. doi: 10.1128/JVI.70.6.3716-3723.1996.
Abstract
The pH-independent fusion of membranes induced by measles virus (MV) requires, in addition to the fusion-competent protein F, hemagglutinin (H), and on the target membrane, the virus receptor CD46. We constructed hybrid receptors composed of different numbers and combinations of the four CD46 short consensus repeat (SCR) domains, followed by immunoglobulin-like domains of another cell surface protein, CD4. Hybrid proteins containing SCRs I and II bound MV particles and conferred fusion competence to rodent cells. SCRs III and/or IV strengthened MV binding. Increasing the distance between the MV binding site and the transmembrane domain enhanced virus binding but reduced fusion efficiency. A hybrid protein predicted to be about 120 Angstroms (12 nm) longer than the standard receptor lost fusion support function and was dominant negative over a functional receptor. These data indicate that receptor protein length influences virus binding and determines fusion efficiency.
摘要
麻疹病毒(MV)诱导的不依赖pH的膜融合,除了需要具有融合能力的蛋白F、血凝素(H)外,还需要靶膜上的病毒受体CD46。我们构建了由四个CD46短共识重复序列(SCR)结构域的不同数量和组合组成的杂交受体,随后是另一种细胞表面蛋白CD4的免疫球蛋白样结构域。含有SCR I和II的杂交蛋白结合MV颗粒,并赋予啮齿动物细胞融合能力。SCR III和/或IV增强了MV结合。增加MV结合位点与跨膜结构域之间的距离可增强病毒结合,但降低融合效率。一种预测比标准受体长约120埃(12纳米)的杂交蛋白失去了融合支持功能,并且对功能性受体具有显性负性作用。这些数据表明受体蛋白长度影响病毒结合并决定融合效率。
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