Department of Microbiology, University of Mississippi Medical Center, Jackson, Mississippi, USA.
J Virol. 2014 Apr;88(8):4493-503. doi: 10.1128/JVI.03784-13. Epub 2014 Feb 5.
Tegument proteins pp150 and pUL96 function at a late step in cytomegalovirus (CMV) maturation. Here, we show that pp150 interacts directly with pUL96; however, the N-terminal region of pp150 and the C-terminal region of pUL96, which are critical for these proteins to function, are not required for this interaction. Moreover, the largely dispensable C-terminal region of pp150 is critical for pp150-pUL96 interaction. To further study the role of pUL96, several point and clustered mutations were engineered into the CMV Towne bacterial artificial chromosome (Towne-BAC) genome, replacing the conserved negatively charged C-terminal residues of pUL96. Although individual point mutations (E122A, D124A, and D125A) reduced virus growth slightly, the clustered mutations of 122EVDDAV127 significantly reduced virus growth, produced small syncytial plaque phenotypes, and impacted a late stage of virus maturation. When the UL96 C-terminal alanine conversion mutant (B6-BAC) virus was serially passaged in cell culture, it gained a plaque size comparable to that of Towne-BAC, displayed an altered restriction fragment length pattern, and replicated with increased growth kinetics. Whole-genome sequencing of this passaged virus (UL96P10) and the similarly passaged Towne-BAC virus revealed major differences only in the RNA4.9 and UL96 regions. When one of the mutations in the UL96 coding region was engineered into the B6-BAC virus, it significantly increased the plaque size and rescued the virus growth rate. Thus, accumulation of compensatory mutations only in UL96 in this revertant and the specific involvement of functionally dispensable regions of pp150 in the pUL96-pp150 interaction point toward a role for pUL96 in virus maturation that does not depend upon pp150.
Human cytomegalovirus causes significant medical problems in newborns, as well as in people with low immunity. In this study, we investigated the functions of two essential virus proteins, pp150 and pUL96, and determined the impact of their mutual interaction on virus replication. These studies provide valuable information that is critical for the development of targeted antiviral therapies.
包膜蛋白 pp150 和 pUL96 在巨细胞病毒 (CMV) 成熟的晚期步骤中发挥作用。在这里,我们表明 pp150 与 pUL96 直接相互作用;然而,pp150 的 N 端区域和 pUL96 的 C 端区域对于这些蛋白的功能至关重要,但不是这种相互作用所必需的。此外,pp150 的大部分非必需 C 端区域对于 pp150-pUL96 相互作用至关重要。为了进一步研究 pUL96 的作用,我们在 CMV Towne 细菌人工染色体 (Towne-BAC) 基因组中设计了几个点突变和簇突变,取代了 pUL96 的保守带负电荷的 C 端残基。虽然单个点突变 (E122A、D124A 和 D125A) 略微降低了病毒的生长速度,但簇突变 122EVDDAV127 显著降低了病毒的生长速度,产生了小的合胞斑表型,并影响了病毒成熟的晚期阶段。当 UL96 C 端丙氨酸转换突变体 (B6-BAC) 病毒在细胞培养中连续传代时,它获得了与 Towne-BAC 相当的蚀斑大小,显示出改变的限制片段长度模式,并以增加的生长动力学进行复制。对该传代病毒 (UL96P10) 和类似传代的 Towne-BAC 病毒进行的全基因组测序仅在 RNA4.9 和 UL96 区域显示出主要差异。当在 B6-BAC 病毒中引入 UL96 编码区的一个突变时,它显著增加了蚀斑大小并挽救了病毒生长速率。因此,在这种回复突变体中只有 UL96 中的补偿突变累积,以及 pp150 中功能上非必需区域在 pUL96-pp150 相互作用中的特异性参与表明 pUL96 在病毒成熟中起作用,而不依赖于 pp150。
人类巨细胞病毒会给新生儿以及免疫力低下的人群带来严重的医疗问题。在这项研究中,我们研究了两种必需病毒蛋白 pp150 和 pUL96 的功能,并确定了它们相互作用对病毒复制的影响。这些研究提供了对开发靶向抗病毒疗法至关重要的有价值信息。
