Department of Microbiology and Immunology, LSU Health Sciences Center, Shreveport, Louisiana, USA.
Department of Microbiology and Immunology, LSU Health Sciences Center, Shreveport, Louisiana, USA
J Virol. 2018 Aug 29;92(18). doi: 10.1128/JVI.00688-18. Print 2018 Sep 15.
UL148 is a viral endoplasmic reticulum (ER)-resident glycoprotein that contributes to human cytomegalovirus (HCMV) cell tropism. The influence of UL148 on tropism correlates with its potential to promote the expression of glycoprotein O (gO), a viral envelope glycoprotein that participates in a heterotrimeric complex with glycoproteins H and L that is required for infectivity. In an effort to gain insight into the mechanism, we used mass spectrometry to identify proteins that coimmunoprecipitate from infected cells with UL148. This approach led us to identify an interaction between UL148 and SEL1L, a factor that plays key roles in ER-associated degradation (ERAD). In pulse-chase experiments, gO was less stable in cells infected with -null mutant HCMV than during wild-type infection, suggesting a potential functional relevance for the interaction with SEL1L. To investigate whether UL148 regulates gO abundance by influencing ERAD, small interfering RNA (siRNA) silencing of either SEL1L or its partner, Hrd1, was carried out in the context of infection. Knockdown of these ERAD factors strongly enhanced levels of gO but not other viral glycoproteins, and the effect was amplified in the presence of UL148. Furthermore, pharmacological inhibition of ERAD showed similar results. Silencing of SEL1L during infection also stabilized an interaction of gO with the ER lectin OS-9, which likewise suggests that gO is an ERAD substrate. Taken together, our results identify an intriguing interaction of UL148 with the ERAD machinery and demonstrate that gO behaves as a constitutive ERAD substrate during infection. These findings have implications for understanding the regulation of HCMV cell tropism. Viral glycoproteins in large part determine the cell types that an enveloped virus can infect and hence play crucial roles in transmission and pathogenesis. The glycoprotein H/L heterodimer (gH/gL) is part of the conserved membrane fusion machinery that all herpesviruses use to enter cells. In human cytomegalovirus (HCMV), gH/gL participates in alternative complexes in virions, one of which is a trimer of gH/gL with glycoprotein O (gO). Here, we show that gO is constitutively degraded during infection by the endoplasmic reticulum-associated degradation (ERAD) pathway and that UL148, a viral factor that regulates HCMV cell tropism, interacts with the ERAD machinery and slows gO decay. Since gO is required for cell-free virus to enter new host cells but dispensable for cell-associated spread that resists antibody neutralization, our findings imply that the posttranslational instability of a viral glycoprotein provides a basis for viral mechanisms to modulate tropism and spread.
UL148 是一种病毒内质网 (ER) 驻留糖蛋白,有助于人类巨细胞病毒 (HCMV) 的细胞嗜性。UL148 对嗜性的影响与其促进糖蛋白 O (gO) 表达的潜力相关,gO 是一种病毒包膜糖蛋白,与糖蛋白 H 和 L 形成三聚体复合物,是感染所必需的。为了深入了解机制,我们使用质谱法鉴定了与 UL148 共免疫沉淀的感染细胞中的蛋白质。这种方法使我们发现 UL148 与 SEL1L 之间存在相互作用,SEL1L 是 ER 相关降解 (ERAD) 中发挥关键作用的因子。在脉冲追踪实验中,与野生型感染相比,gO 在感染 -null 突变型 HCMV 的细胞中更不稳定,这表明与 SEL1L 的相互作用具有潜在的功能相关性。为了研究 UL148 是否通过影响 ERAD 来调节 gO 的丰度,我们在感染的情况下通过小干扰 RNA (siRNA) 沉默 SEL1L 或其伴侣 Hrd1。这些 ERAD 因子的敲低强烈增加了 gO 的水平,但不增加其他病毒糖蛋白的水平,并且在存在 UL148 的情况下,这种效应会放大。此外,药理学抑制 ERAD 也显示出类似的结果。在感染期间沉默 SEL1L 也稳定了 gO 与 ER 凝集素 OS-9 的相互作用,这同样表明 gO 是 ERAD 的底物。总之,我们的结果确定了 UL148 与 ERAD 机制之间引人入胜的相互作用,并表明 gO 在感染期间是一种组成型 ERAD 底物。这些发现对于理解 HCMV 细胞嗜性的调节具有重要意义。病毒糖蛋白在很大程度上决定了包膜病毒可以感染的细胞类型,因此在传播和发病机制中起着至关重要的作用。糖蛋白 H/L 异二聚体 (gH/gL) 是所有疱疹病毒用于进入细胞的保守膜融合机制的一部分。在人类巨细胞病毒 (HCMV) 中,gH/gL 在病毒粒子中参与替代复合物,其中一种是 gH/gL 与糖蛋白 O (gO) 的三聚体。在这里,我们表明 gO 在感染期间通过内质网相关降解 (ERAD) 途径被连续降解,并且调节 HCMV 细胞嗜性的病毒因子 UL148 与 ERAD 机制相互作用并减缓 gO 的降解。由于 gO 是游离病毒进入新宿主细胞所必需的,但对于抵抗抗体中和的细胞相关传播是可有可无的,因此我们的研究结果表明,病毒糖蛋白的翻译后不稳定性为病毒机制调节嗜性和传播提供了基础。
