Mastromarino P, Conti C, Petruzziello R, Lapadula R, Orsi N
Institute of Microbiology, School of Medicine, University of Rome La Sapienza, Italy.
Arch Virol. 1991;121(1-4):19-27. doi: 10.1007/BF01316741.
To clarify the role of electrostatic interactions in the binding of Sindbis virus (SNV) to cell membrane receptors, we investigated the effect of different polyions on the initial steps of infection of Vero cells by the virus. Several polyanions (mucin, heparin, polygalacturonic acid) and polycations (polylysine, protamine, polybrene) were able to reduce the replication of SNV when present in the viral adsorption period, whereas others (chondroitin sulfate, polymyxin B sulfate, histone) were devoid of any activity. Therefore the electric charge alone is not sufficient to explain the action of compounds. The effects of polyions on receptor binding, on bound virus, and on internalized virus have been examined. All the drugs inhibited SNV infection by affecting its binding to the cellular receptor. The results indicated that heparin and mucin act directly on the virus particle while polycations bind to the cell membrane receptor for the virus, protamine being effective on both targets. Since among polyanions glycosaminoglycans showed a strong inhibiting activity, the involvement of these molecules in the virus surface receptor was assessed by enzyme digestion of cell membrane with heparinase and chondroitin ABC lyase.
为阐明静电相互作用在辛德毕斯病毒(SNV)与细胞膜受体结合中的作用,我们研究了不同聚离子对该病毒感染Vero细胞初始步骤的影响。几种聚阴离子(粘蛋白、肝素、聚半乳糖醛酸)和聚阳离子(聚赖氨酸、鱼精蛋白、聚凝胺)在病毒吸附期存在时能够降低SNV的复制,而其他一些(硫酸软骨素、硫酸多粘菌素B、组蛋白)则没有任何活性。因此,仅靠电荷不足以解释化合物的作用。我们研究了聚离子对受体结合、结合病毒以及内化病毒的影响。所有药物均通过影响SNV与细胞受体的结合来抑制其感染。结果表明,肝素和粘蛋白直接作用于病毒颗粒,而聚阳离子则与病毒的细胞膜受体结合,鱼精蛋白对这两个靶点均有效。由于在聚阴离子中糖胺聚糖表现出很强的抑制活性,我们通过用肝素酶和软骨素ABC裂解酶对细胞膜进行酶消化来评估这些分子在病毒表面受体中的作用。