Rudolf Buchheim Institute of Pharmacology, Justus Liebig University Giessen, Giessen, Germany.
Institute of Biochemistry, Justus Liebig University, Giessen, Germany.
J Virol. 2019 Jun 14;93(13). doi: 10.1128/JVI.00528-19. Print 2019 Jul 1.
Influenza A viruses (IAVs) quickly adapt to new environments and are well known to cross species barriers. To reveal a molecular basis for these phenomena, we compared the Ser/Thr and Tyr phosphoproteomes of murine lung epithelial cells early and late after infection with mouse-adapted SC35M virus or its nonadapted SC35 counterpart. With this analysis we identified a large set of upregulated Ser/Thr phosphorylations common to both viral genotypes, while Tyr phosphorylations showed little overlap. Most of the proteins undergoing massive changes of phosphorylation in response to both viruses regulate chromatin structure, RNA metabolism, and cell adhesion, including a focal adhesion kinase (FAK)-regulated network mediating the regulation of actin dynamics. IAV also affected phosphorylation of activation loops of 37 protein kinases, including FAK and several phosphatases, many of which were not previously implicated in influenza virus infection. Inhibition of FAK proved its contribution to IAV infection. Novel phosphorylation sites were found on IAV-encoded proteins, and the functional analysis of selected phosphorylation sites showed that they either support (NA Ser178) or inhibit (PB1 Thr223) virus propagation. Together, these data allow novel insights into IAV-triggered regulatory phosphorylation circuits and signaling networks. Infection with IAVs leads to the induction of complex signaling cascades, which apparently serve two opposing functions. On the one hand, the virus highjacks cellular signaling cascades in order to support its propagation; on the other hand, the host cell triggers antiviral signaling networks. Here we focused on IAV-triggered phosphorylation events in a systematic fashion by deep sequencing of the phosphoproteomes. This study revealed a plethora of newly phosphorylated proteins. We also identified 37 protein kinases and a range of phosphatases that are activated or inactivated following IAV infection. Moreover, we identified new phosphorylation sites on IAV-encoded proteins. Some of these phosphorylations support the enzymatic function of viral components, while other phosphorylations are inhibitory, as exemplified by PB1 Thr223 modification. Our global characterization of IAV-triggered patterns of phospho-proteins provides a rich resource to further understand host responses to infection at the level of phosphorylation-dependent signaling networks.
甲型流感病毒(IAV)能够迅速适应新环境,并且众所周知能够跨越物种屏障。为了揭示这些现象的分子基础,我们比较了感染适应鼠源的 SC35M 病毒或其非适应鼠源 SC35 病毒后早期和晚期的鼠肺上皮细胞中的 Ser/Thr 和 Tyr 磷酸化蛋白质组。通过这项分析,我们鉴定了一大组两种病毒基因型共有的上调的 Ser/Thr 磷酸化,而 Tyr 磷酸化则很少重叠。对两种病毒都有大量变化的磷酸化反应的大多数蛋白质都调节染色质结构、RNA 代谢和细胞黏附,包括参与调节肌动蛋白动力学的粘着斑激酶(FAK)调节网络。IAV 还影响 37 种蛋白激酶的激活环磷酸化,包括 FAK 和几种磷酸酶,其中许多以前与流感病毒感染无关。FAK 的抑制证明了其对 IAV 感染的贡献。在 IAV 编码的蛋白上发现了新的磷酸化位点,对选定磷酸化位点的功能分析表明,它们要么支持(NA Ser178),要么抑制(PB1 Thr223)病毒复制。总的来说,这些数据为 IAV 触发的调节磷酸化循环和信号网络提供了新的见解。IAV 感染会导致复杂的信号级联反应的诱导,这些信号级联反应显然具有两个相反的功能。一方面,病毒劫持细胞信号级联反应以支持其繁殖;另一方面,宿主细胞触发抗病毒信号网络。在这里,我们通过对磷酸蛋白质组的深度测序,以系统的方式专注于 IAV 触发的磷酸化事件。这项研究揭示了大量新的磷酸化蛋白。我们还鉴定了 37 种蛋白激酶和一系列磷酸酶,它们在 IAV 感染后被激活或失活。此外,我们在 IAV 编码蛋白上鉴定了新的磷酸化位点。其中一些磷酸化支持病毒成分的酶促功能,而其他磷酸化是抑制性的,例如 PB1 Thr223 的修饰。我们对 IAV 触发的磷酸化蛋白模式的全面描述为进一步了解宿主对感染的反应提供了丰富的资源,即磷酸化依赖性信号网络的水平。
