Boehme Karl W, Singh Jasbir, Perry Stuart T, Compton Teresa
McArdle Laboratory for Cancer Research, University of Wisconsin-Madison Medical School, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.
J Virol. 2004 Feb;78(3):1202-11. doi: 10.1128/jvi.78.3.1202-1211.2004.
Previous studies have shown that human cytomegalovirus (CMV) is a potent elicitor of interferon-stimulated gene (ISG) expression. Induction of the interferon pathway does not require replication-competent virus, and envelope glycoprotein B (gB) from CMV is a viral structural component that can directly induce transcription of ISGs. Here we extend these earlier findings by defining the consequences of inducing the interferon pathway. We found that cells respond to CMV or soluble gB by establishing a functional antiviral state within cell types critical in CMV biology, such as fibroblasts and endothelial cells. We have also discovered new insights into the mechanism by which the pathway is initiated. Interferon regulatory factor 3 (IRF3), a key transcriptional regulator of cellular interferon responses, is activated by CMV virions and soluble gB. Thus, IRF3 becomes activated via "outside-in" signal transduction events. This is a novel mechanism of activation of this key transcription factor by viruses. In comparison to soluble gB (gB(1-750)), which comprises the entire ectodomain of gB, a truncation mutant encompassing only the amino-terminal region of gB (gB(1-460)) was markedly less effective at inducing antiviral responses. This indicates that the region of gB from residues 461 to 750 is important for initiation of the antiviral response. In addition, CMV and gB establish an antiviral state in alpha/beta interferon null cells, illustrating that primary induction of ISGs by CMV and gB is sufficient to establish the antiviral response and that interferon secretion is not necessary for the antiviral effect. Taken together, our findings reveal that CMV initiates a coordinated antiviral response through contact between gB and an as-yet-unidentified cell surface receptor(s).
先前的研究表明,人巨细胞病毒(CMV)是干扰素刺激基因(ISG)表达的强效诱导剂。干扰素途径的诱导不需要具有复制能力的病毒,并且来自CMV的包膜糖蛋白B(gB)是一种病毒结构成分,可直接诱导ISG的转录。在这里,我们通过定义诱导干扰素途径的后果来扩展这些早期发现。我们发现,细胞通过在CMV生物学中至关重要的细胞类型(如成纤维细胞和内皮细胞)内建立功能性抗病毒状态来响应CMV或可溶性gB。我们还发现了该途径启动机制的新见解。干扰素调节因子3(IRF3)是细胞干扰素反应的关键转录调节因子,被CMV病毒粒子和可溶性gB激活。因此,IRF3通过“由外向内”的信号转导事件被激活。这是病毒激活这一关键转录因子的新机制。与包含gB整个胞外域的可溶性gB(gB(1-750))相比,仅包含gB氨基末端区域的截短突变体(gB(1-460))在诱导抗病毒反应方面明显效果较差。这表明gB中461至750位残基的区域对于抗病毒反应的启动很重要。此外,CMV和gB在α/β干扰素缺失的细胞中建立抗病毒状态,说明CMV和gB对ISG的初级诱导足以建立抗病毒反应,并且抗病毒作用不需要干扰素分泌。综上所述,我们的研究结果表明,CMV通过gB与尚未确定的细胞表面受体之间的接触启动协调的抗病毒反应。