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人巨细胞病毒糖蛋白B的二硫键构型

Disulfide bond configuration of human cytomegalovirus glycoprotein B.

作者信息

Lopper Matthew, Compton Teresa

机构信息

Department of Biomolecular Chemistry. McArdle Laboratory for Cancer Research, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

J Virol. 2002 Jun;76(12):6073-82. doi: 10.1128/jvi.76.12.6073-6082.2002.

Abstract

Glycoprotein B (gB) is the most highly conserved of the envelope glycoproteins of human herpesviruses. The gB protein of human cytomegalovirus (CMV) serves multiple roles in the life cycle of the virus. To investigate structural properties of gB that give rise to its function, we sought to determine the disulfide bond arrangement of gB. To this end, a recombinant form of gB (gB-S) comprising the entire ectodomain of the glycoprotein (amino acids 1 to 750) was constructed and expressed in insect cells. Proteolytic fragmentation and mass spectrometry were performed using purified gB-S, and the five disulfide bonds that link 10 of the 11 highly conserved cysteine residues of gB were mapped. These bonds are C94-C550, C111-C506, C246-C250, C344-C391, and C573-C610. This configuration closely parallels the disulfide bond configuration of herpes simplex type 2 (HSV-2) gB (N. Norais, D. Tang, S. Kaur, S. H. Chamberlain, F. R. Masiarz, R. L. Burke, and F. Markus, J. Virol. 70:7379-7387, 1996). However, despite the high degree of conservation of cysteine residues between CMV gB and HSV-2 gB, the disulfide bond arrangements of the two homologs are not identical. We detected a disulfide bond between the conserved cysteine residue 246 and the nonconserved cysteine residue 250 of CMV gB. We hypothesize that this disulfide bond stabilizes a tight loop in the amino-terminal fragment of CMV gB that does not exist in HSV-2 gB. We predicted that the cysteine residue not found in a disulfide bond of CMV gB, cysteine residue 185, would play a role in dimerization, but a cysteine substitution mutant in cysteine residue 185 showed no apparent defect in the ability to form dimers. These results indicate that gB oligomerization involves additional interactions other than a single disulfide bond. This work represents the second reported disulfide bond structure for a herpesvirus gB homolog, and the discovery that the two structures are not identical underscores the importance of empirically determining structures even for highly conserved proteins.

摘要

糖蛋白B(gB)是人类疱疹病毒包膜糖蛋白中保守性最高的。人巨细胞病毒(CMV)的gB蛋白在病毒生命周期中发挥多种作用。为了研究gB产生其功能的结构特性,我们试图确定gB的二硫键排列。为此,构建了包含糖蛋白整个胞外域(氨基酸1至750)的重组形式gB(gB-S),并在昆虫细胞中表达。使用纯化的gB-S进行蛋白水解片段化和质谱分析,绘制了连接gB的11个高度保守半胱氨酸残基中10个的5个二硫键。这些键为C94-C550、C111-C506、C246-C250、C344-C391和C573-C610。这种构型与2型单纯疱疹病毒(HSV-2)gB的二硫键构型非常相似(N.诺拉伊斯、D.唐、S.考尔、S.H.张伯伦、F.R.马西亚尔兹、R.L.伯克和F.马库斯,《病毒学杂志》70:7379-7387,1996年)。然而,尽管CMV gB和HSV-2 gB之间半胱氨酸残基的保守程度很高,但这两种同源物的二硫键排列并不相同。我们检测到CMV gB保守的半胱氨酸残基246和非保守的半胱氨酸残基250之间存在二硫键。我们推测,这个二硫键稳定了CMV gB氨基末端片段中一个紧密的环,而HSV-2 gB中不存在这个环。我们预测,在CMV gB的二硫键中未发现的半胱氨酸残基185会在二聚化中起作用,但半胱氨酸残基185的半胱氨酸替代突变体在形成二聚体的能力上没有明显缺陷。这些结果表明,gB寡聚化涉及除单个二硫键之外的其他相互作用。这项工作代表了疱疹病毒gB同源物的第二个报道的二硫键结构,并且这两种结构不相同的发现强调了即使对于高度保守的蛋白质,通过实验确定结构的重要性。

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