The Autonomous Fusion Activity of Human Cytomegalovirus Glycoprotein B Is Regulated by Its Carboxy-Terminal Domain

Viruses Pub Date : 2024-09-18 DOI:10.3390/v16091482
Nina Reuter, Barbara Kropff, Xiaohan Chen, William J. Britt, Heinrich Sticht, Michael Mach, Marco Thomas
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Abstract

The human cytomegalovirus (HCMV) glycoprotein B (gB) is the viral fusogen required for entry into cells and for direct cell-to-cell spread of the virus. We have previously demonstrated that the exchange of the carboxy-terminal domain (CTD) of gB for the CTD of the structurally related fusion protein G of the vesicular stomatitis virus (VSV-G) resulted in an intrinsically fusion-active gB variant (gB/VSV-G). In this present study, we employed a dual split protein (DSP)-based cell fusion assay to further characterize the determinants of fusion activity in the CTD of gB. We generated a comprehensive library of gB CTD truncation mutants and identified two mutants, gB-787 and gB-807, which were fusion-competent and induced the formation of multinucleated cell syncytia in the absence of other HCMV proteins. Structural modeling coupled with site-directed mutagenesis revealed that gB fusion activity is primarily mediated by the CTD helix 2, and secondarily by the recruitment of cellular SH2/WW-domain-containing proteins. The fusion activity of gB-807 was inhibited by gB-specific monoclonal antibodies (MAbs) targeting the antigenic domains AD-1 to AD-5 within the ectodomain and not restricted to MAbs directed against AD-4 and AD-5 as observed for gB/VSV-G. This finding suggested a differential regulation of the fusion-active conformational state of both gB variants. Collectively, our findings underscore a pivotal role of the CTD in regulating the fusogenicity of HCMV gB, with important implications for understanding the conformations of gB that facilitate membrane fusion, including antigenic structures that could be targeted by antibodies to block this essential step in HCMV infection.
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人类巨细胞病毒糖蛋白 B 的自主融合活性受其羧基末端结构域调控
人类巨细胞病毒(HCMV)糖蛋白 B(gB)是病毒进入细胞和在细胞间直接传播所需的病毒融合原。我们曾证实,将 gB 的羧基末端结构域(CTD)与水泡性口炎病毒(VSV-G)结构相关的融合蛋白 G 的 CTD 互换,可产生一种具有内在融合活性的 gB 变体(gB/VSV-G)。在本研究中,我们采用了一种基于双分裂蛋白(DSP)的细胞融合试验,以进一步确定 gB CTD 融合活性的决定因素。我们生成了一个全面的 gB CTD 截断突变体库,并鉴定出了两个突变体 gB-787 和 gB-807,它们具有融合能力,并能在没有其他 HCMV 蛋白的情况下诱导多核细胞合胞体的形成。结构建模与定点突变相结合发现,gB 的融合活性主要由 CTD 螺旋 2 介导,其次是通过招募含细胞 SH2/WW 域的蛋白。gB-807的融合活性受到针对外结构域内抗原结构域AD-1至AD-5的gB特异性单克隆抗体(MAbs)的抑制,而不像在gB/VSV-G中观察到的那样仅限于针对AD-4和AD-5的MAbs。这一发现表明,两种 gB 变体的融合活性构象状态存在不同的调控方式。总之,我们的研究结果强调了 CTD 在调节 HCMV gB 融合活性中的关键作用,这对了解促进膜融合的 gB 构象具有重要意义,包括抗体可以靶向阻断 HCMV 感染中这一重要步骤的抗原结构。
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