Tal-Singer R, Peng C, Ponce De Leon M, Abrams W R, Banfield B W, Tufaro F, Cohen G H, Eisenberg R J
Department of Microbiology, University of Pennsylvania, Philadelphia, USA.
J Virol. 1995 Jul;69(7):4471-83. doi: 10.1128/JVI.69.7.4471-4483.1995.
The entry of herpes simplex virus (HSV) into mammalian cells is a multistep process beginning with an attachment step involving glycoproteins gC and gB. A second step requires the interaction of glycoprotein gD with a cell surface molecule. We explored the interaction between gC and the cell surface by using purified proteins in the absence of detergent. Truncated forms of gC and gD, gC1(457t), gC2(426t), and gD1(306t), lacking the transmembrane and carboxyl regions were expressed in the baculovirus system. We studied the ability of these proteins to bind to mammalian cells, to bind to immobilized heparin, to block HSV type 1 (HSV-1) attachment to cells, and to inhibit plaque formation by HSV-1. Each of these gC proteins bound to conformation-dependent monoclonal antibodies and to human complement component C3b, indicating that they maintained the same conformation of gC proteins expressed in mammalian cells. Biotinylated gC1(457t) and gC2(426t) each bind to several cell lines. Binding was inhibited by an excess of unlabeled gC but not by gD, indicating specificity. The attachment of gC to cells involves primarily heparan sulfate proteoglycans, since heparitinase treatment of cells reduced gC binding by 50% but had no effect on gD binding. Moreover, binding of gC to two heparan sulfate-deficient L-cell lines, gro2C and sog9, both of which are mostly resistant to HSV infection, was markedly reduced. Purified gD1 (306t), however, bound equally well to the two mutant cell lines. In contrast, saturating amounts of gC1(457t) interfered with HSV-1 attachment to cells but failed to block plaque formation, suggesting a role for gC in attachment but not penetration. A mutant form of gC lacking residues 33 to 123, gC1(delta 33-123t), expressed in the baculovirus system, bound significantly less well to cells than did gC1(457t) and competed poorly with biotinylated gC1(457t) for binding. These results suggest that residues 33 to 123 are important for gC attachment to cells. In contrast, both the mutant and wild-type forms of gC bound to immobilized heparin, indicating that binding of these proteins to the cell surface involves more than a simple interaction with heparin. To determine that the contribution of the N-terminal region of gC is important for HSV attachment, we compared several properties of a mutant HSV-1 which contains gC lacking amino acids 33 to 123 to those of its parental virus, which contains full-length gC. The mutant bound less well to cells than the parental virus but exhibited normal growth properties.(ABSTRACT TRUNCATED AT 400 WORDS)
单纯疱疹病毒(HSV)进入哺乳动物细胞是一个多步骤过程,始于涉及糖蛋白gC和gB的附着步骤。第二步需要糖蛋白gD与细胞表面分子相互作用。我们在不存在去污剂的情况下使用纯化蛋白探索了gC与细胞表面之间的相互作用。在杆状病毒系统中表达了缺少跨膜和羧基区域的gC和gD的截短形式,即gC1(457t)、gC2(426t)和gD1(306t)。我们研究了这些蛋白与哺乳动物细胞结合、与固定化肝素结合、阻断1型单纯疱疹病毒(HSV-1)附着到细胞以及抑制HSV-1形成蚀斑的能力。这些gC蛋白中的每一种都与构象依赖性单克隆抗体和人补体成分C3b结合,表明它们保持了在哺乳动物细胞中表达的gC蛋白的相同构象。生物素化的gC1(457t)和gC2(426t)各自与几种细胞系结合。过量未标记的gC可抑制结合,但gD不能,表明具有特异性。gC与细胞的附着主要涉及硫酸乙酰肝素蛋白聚糖,因为用肝素酶处理细胞可使gC结合减少50%,但对gD结合无影响。此外,gC与两种硫酸乙酰肝素缺陷的L细胞系gro2C和sog9的结合明显减少,这两种细胞系大多对HSV感染具有抗性。然而,纯化的gD1( thirty6t)与这两种突变细胞系的结合同样良好。相比之下,饱和量的gC1(457t)可干扰HSV-1附着到细胞,但未能阻断蚀斑形成,这表明gC在附着而非穿透中起作用。在杆状病毒系统中表达的缺少33至123位残基的gC突变形式gC1(δ33 - 123t)与细胞的结合明显不如gC1(457t),并且在结合方面与生物素化的gC1(457t)竞争较差。这些结果表明33至123位残基对于gC附着到细胞很重要。相比之下,gC的突变型和野生型形式均与固定化肝素结合,表明这些蛋白与细胞表面的结合涉及的不仅仅是与肝素的简单相互作用。为了确定gC的N端区域的贡献对于HSV附着很重要,我们比较了一种包含缺少33至123位氨基酸的gC的突变型HSV-1与其包含全长gC的亲本病毒的几种特性。该突变体与细胞的结合不如亲本病毒,但表现出正常的生长特性。(摘要截短于400字)
