人类巨细胞病毒 vGPCR UL33 是上皮细胞中高效溶解复制的必要条件

MacKenzie R Freeman, Abigail L Dooley, Matthew J Beucler, Wes Sanders, Nathaniel J Moorman, Christine M O'Connor, William E Miller
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摘要

人类巨细胞病毒(HCMV)是一种β-疱疹病毒,在人类中无处不在。在所有已知的人类疱疹病毒中,HCMV 的基因组最大,因此编码了大量影响不同细胞类型致病机理的蛋白质。由于 HCMV 的基因组较大,而且能在多种细胞中复制,研究人员已开始鉴定细胞特异性复制所需的病毒蛋白。HCMV 基因组中编码的四种蛋白与人类 G 蛋白偶联受体(GPCR)同源;这些病毒编码的 GPCR(vGPCR)是 UL33、UL78、US27 和 US28。在目前的研究中,我们发现从临床分离的 HCMV 中删除全部四个 vGPCR 基因会严重削弱原代人类唾液腺上皮细胞和 ARPE-19 视网膜上皮细胞中的溶解复制,这表现在即刻早期基因表达和病毒产量的显著下降。从 HCMV 基因组中缺失 UL33 也会导致无法在上皮细胞中有效复制,这种缺陷表现为即刻早期、早期和晚期基因表达水平的降低以及病毒产量的减少。我们发现,与 US28 相似,UL33 在这些上皮细胞中构成性地激活依赖于 Gαq 的 PLC-β 信号转导,使其达到高水平。我们还发现,UL33 的转录比原先认为的要复杂得多,病毒有可能利用不同的 5′ UTR 创造出新型的 UL33 蛋白,这些蛋白都能组成性地产生 Gαq 信号。总之,这些研究表明,UL33 驱动的信号传导对上皮源性细胞中的溶解性 HCMV 复制非常重要。
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The Human Cytomegalovirus vGPCR UL33 is Essential for Efficient Lytic Replication in Epithelial Cells
Human cytomegalovirus (HCMV) is a β-herpesvirus which is ubiquitous in the human population. HCMV has the largest genome of all known human herpesviruses, and thus encodes a large array of proteins that affect pathogenesis in different cell types. Given the large genome and the ability of HCMV to replicate in a range of cells, investigators have begun to identify viral proteins required for cell type-specific replication. There are four proteins encoded in the HCMV genome that are homologous to human G protein-coupled receptors (GPCRs); these viral-encoded GPCRs (vGPCRs) are UL33, UL78, US27, and US28. In the current study, we find that deletion of all four vGPCR genes from a clinical isolate of HCMV severely attenuates lytic replication in both primary human salivary gland epithelial cells, as well as ARPE-19 retinal epithelial cells as evidenced by significant decreases in immediate early gene expression and virus production. Deletion of UL33 from the HCMV genome also results in a failure to efficiently replicate in epithelial cells, and this defect is manifested by decreased levels of immediate early, early, and late gene expression, as well as reduced viral production. We find that similar to US28, UL33 constitutively activates Gαq-dependent PLC-β signaling to high levels in these epithelial cells. We also find that UL33 transcription is more complicated than originally believed, and there is the potential for the virus to utilize various 5′ UTRs to create novel UL33 proteins that are all capable of constitutive Gαq signaling. Taken together, these studies suggest that UL33 driven signaling is important for lytic HCMV replication in cells of epithelial origin.
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