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双分割蛋白融合分析显示,单纯疱疹病毒(HSV)糖蛋白 gB 的突变改变了 HSV 进入糖蛋白诱导的细胞间融合的动力学。

Dual split protein-based fusion assay reveals that mutations to herpes simplex virus (HSV) glycoprotein gB alter the kinetics of cell-cell fusion induced by HSV entry glycoproteins.

机构信息

Department of Microbiology, School of Dental Medicine.

出版信息

J Virol. 2013 Nov;87(21):11332-45. doi: 10.1128/JVI.01700-13. Epub 2013 Aug 14.

DOI:10.1128/JVI.01700-13
PMID:23946457
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3807322/
Abstract

Herpes simplex virus (HSV) entry and cell-cell fusion require glycoproteins gD, gH/gL, and gB. We propose that receptor-activated changes to gD cause it to activate gH/gL, which then triggers gB into an active form. We employed a dual split-protein (DSP) assay to monitor the kinetics of HSV glycoprotein-induced cell-cell fusion. This assay measures content mixing between two cells, i.e., fusion, within the same cell population in real time (minutes to hours). Titration experiments suggest that both gD and gH/gL act in a catalytic fashion to trigger gB. In fact, fusion rates are governed by the amount of gB on the cell surface. We then used the DSP assay to focus on mutants in two functional regions (FRs) of gB, FR1 and FR3. FR1 contains the fusion loops (FL1 and FL2), and FR3 encompasses the crown at the trimer top. All FL mutants initiated fusion very slowly, if at all. However, the fusion rates caused by some FL2 mutants increased over time, so that total fusion by 8 h looked much like that of the WT. Two distinct kinetic patterns, "slow and fast," emerged for mutants in the crown of gB (FR3), again showing differences in initiation and ongoing fusion. Of note are the fusion kinetics of the gB syn mutant (LL871/872AA). Although this mutant was originally included as an ongoing high-rate-of-fusion control, its initiation of fusion is so rapid that it appears to be on a "hair trigger." Thus, the DSP assay affords a unique way to examine the dynamics of HSV glycoprotein-induced cell fusion.

摘要

单纯疱疹病毒(HSV)进入和细胞-细胞融合需要糖蛋白 gD、gH/gL 和 gB。我们提出,受受体激活影响的 gD 变化使其激活 gH/gL,进而触发 gB 进入活跃形式。我们采用双分裂蛋白(DSP)测定法来监测 HSV 糖蛋白诱导的细胞-细胞融合的动力学。该测定法实时(数分钟至数小时)测量同一细胞群体中两个细胞之间的内容混合,即融合。滴定实验表明,gD 和 gH/gL 均以催化方式发挥作用,触发 gB。事实上,融合速率受细胞表面 gB 的数量控制。然后,我们使用 DSP 测定法集中研究 gB 两个功能区(FR)中的突变体,即 FR1 和 FR3。FR1 包含融合环(FL1 和 FL2),FR3 包含三聚体顶部的冠状结构。所有 FL 突变体的融合启动都非常缓慢,如果有的话。然而,一些 FL2 突变体的融合速率随时间增加,因此到 8 小时时总融合看起来与 WT 非常相似。gB 冠状结构(FR3)中的突变体出现了两种截然不同的动力学模式,“慢和快”,再次显示出在启动和持续融合方面的差异。值得注意的是 gB syn 突变体(LL871/872AA)的融合动力学。尽管该突变体最初被包含作为持续高融合速率的对照,但它的融合启动非常迅速,以至于它似乎处于“一触即发”状态。因此,DSP 测定法为研究 HSV 糖蛋白诱导的细胞融合动力学提供了一种独特的方法。

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