Evaluation of nucleocapsid and phosphoprotein p functionality as critical factors during the early phase of paramyxoviral infection.

The Open Virology Journal Pub Date : 2012-01-01 Epub Date: 2012-06-14 DOI:10.2174/1874357901206010073
Sascha Bossow, Sabine Schlecht, Rainer Schubbert, Matthias Pfeiffer, Wolfgang J Neubert, Marian Wiegand
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引用次数: 9

Abstract

In the beginning of a paramyxovirus infection after cell entry viral survival depends on efficient primary (1°) transcription and on the stability of only one input nucleocapsid. Here we examined the influence of the viral polymerase co-factor phosphoprotein P on the very early phase of an infection, i.e. before progeny nucleocapsids are synthesized. We used a novel set-up with Sendai virus (SeV) mutants incapable of genome replication: SeV-ΔP with the entire P ORF deleted, SeV-PΔ2-77 with the deletion of aa 2-77. These mutants allow maintaining the state of the very beginning of an infection when statistically one viral genome is present in the cell. This single genome serves as template for transcription. During SeV-ΔP infections only early 1° transcription takes place at low levels. However, when the truncated P protein is expressed in SeV-PΔ2-77 infections, 1° transcription levels rise significantly up to an 8-fold increased amount of viral mRNA. This shows that the P protein is able to support transcription and thereby mediates the transition from early to late 1° transcription. Importantly, nucleocapsids of both mutants could be shown to remain stable and functional for at least 5 days - even without de novo P protein synthesis. These results describe a novel function of the P protein: enhancing viral gene expression even before genome replication has started. Thus, the since long postulated supportive function of the P protein is not related to stabilization of the nucleocapsid but rather enhances the processivity of the viral polymerase during late 1° and secondary (2°) transcription and genome replication.

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评价核衣壳和磷蛋白p功能作为副粘病毒感染早期的关键因素。
在进入细胞后的副粘病毒感染初期,病毒的存活依赖于高效的初级(1°)转录和仅一个输入核衣壳的稳定性。在这里,我们研究了病毒聚合酶辅助因子磷蛋白P对感染的早期阶段的影响,即在后代核衣壳合成之前。我们对仙台病毒(SeV)突变体进行了新的基因组复制设置:SeV-ΔP删除了整个P ORF, SeV-PΔ2-77删除了aa 2-77。当统计上只有一个病毒基因组存在于细胞中时,这些突变体可以维持感染初期的状态。这个单一基因组充当转录的模板。在SeV-ΔP感染期间,只有早期1°转录发生在低水平。然而,当截断的P蛋白在SeV-PΔ2-77感染中表达时,1°转录水平显著上升,病毒mRNA的数量增加了8倍。这表明P蛋白能够支持转录,从而介导从早期到晚期1°转录的转变。重要的是,两种突变体的核衣壳可以保持稳定和功能至少5天-即使没有重新合成P蛋白。这些结果描述了P蛋白的一种新功能:甚至在基因组复制开始之前就增强病毒基因表达。因此,长期以来假设的P蛋白的支持功能与核衣壳的稳定无关,而是在后期1°和二次(2°)转录和基因组复制过程中增强病毒聚合酶的加工能力。
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