Scheuplein Vivian A, Seifried Janna, Malczyk Anna H, Miller Lilija, Höcker Lena, Vergara-Alert Júlia, Dolnik Olga, Zielecki Florian, Becker Björn, Spreitzer Ingo, König Renate, Becker Stephan, Waibler Zoe, Mühlebach Michael D
Oncolytic Measles Viruses and Vaccine Vectors, Paul Ehrlich Institut, Langen, Germany.
Oncolytic Measles Viruses and Vaccine Vectors, Paul Ehrlich Institut, Langen, Germany Host Pathogen Interactions, Paul Ehrlich Institut, Langen, Germany.
J Virol. 2015 Apr;89(7):3859-69. doi: 10.1128/JVI.03607-14. Epub 2015 Jan 21.
The Middle East respiratory syndrome coronavirus (MERS-CoV) emerged in 2012 as the causative agent of a severe respiratory disease with a fatality rate of approximately 30%. The high virulence and mortality rate prompted us to analyze aspects of MERS-CoV pathogenesis, especially its interaction with innate immune cells such as antigen-presenting cells (APCs). Particularly, we analyzed secretion of type I and type III interferons (IFNs) by APCs, i.e., B cells, macrophages, monocyte-derived/myeloid dendritic cells (MDDCs/mDCs), and by plasmacytoid dendritic cells (pDCs) of human and murine origin after inoculation with MERS-CoV. Production of large amounts of type I and III IFNs was induced exclusively in human pDCs, which were significantly higher than IFN induction by severe acute respiratory syndrome (SARS)-CoV. Of note, IFNs were secreted in the absence of productive replication. However, receptor binding, endosomal uptake, and probably signaling via Toll-like receptor 7 (TLR7) were critical for sensing of MERS-CoV by pDCs. Furthermore, active transcription of MERS-CoV N RNA and subsequent N protein expression were evident in infected pDCs, indicating abortive infection. Taken together, our results point toward dipeptidyl peptidase 4 (DPP4)-dependent endosomal uptake and subsequent infection of human pDCs by MERS-CoV. However, the replication cycle is stopped after early gene expression. In parallel, human pDCs are potent IFN-producing cells upon MERS-CoV infection. Knowledge of such IFN responses supports our understanding of MERS-CoV pathogenesis and is critical for the choice of treatment options.
MERS-CoV causes a severe respiratory disease with high fatality rates in human patients. Recently, confirmed human cases have increased dramatically in both number and geographic distribution. Understanding the pathogenesis of this highly pathogenic CoV is crucial for developing successful treatment strategies. This study elucidates the interaction of MERS-CoV with APCs and pDCs, particularly the induction of type I and III IFN secretion. Human pDCs are the immune cell population sensing MERS-CoV but secrete significantly larger amounts of IFNs, especially IFN-α, than in response to SARS-CoV. A model for molecular virus-host interactions is presented outlining IFN induction in pDCs. The massive IFN secretion upon contact suggests a critical role of this mechanism for the high degree of immune activation observed during MERS-CoV infection.
中东呼吸综合征冠状病毒(MERS-CoV)于2012年出现,是一种严重呼吸道疾病的病原体,致死率约为30%。其高毒力和死亡率促使我们分析MERS-CoV发病机制的各个方面,尤其是它与抗原呈递细胞(APC)等天然免疫细胞的相互作用。特别地,我们分析了在接种MERS-CoV后,人源和鼠源的APC(即B细胞、巨噬细胞、单核细胞来源/髓样树突状细胞(MDDCs/mDCs))以及浆细胞样树突状细胞(pDCs)分泌I型和III型干扰素(IFN)的情况。大量I型和III型IFN的产生仅在人pDCs中被诱导,其显著高于严重急性呼吸综合征(SARS)-CoV诱导的IFN产生。值得注意的是,IFN在无有效复制的情况下分泌。然而,受体结合、内体摄取以及可能通过Toll样受体7(TLR7)的信号传导对于pDCs感知MERS-CoV至关重要。此外,在受感染的pDCs中明显存在MERS-CoV N RNA的活跃转录以及随后的N蛋白表达,表明是流产感染。综上所述,我们的结果表明二肽基肽酶4(DPP4)依赖的内体摄取以及随后MERS-CoV对人pDCs的感染。然而,复制周期在早期基因表达后停止。同时,人pDCs在感染MERS-CoV后是强大的IFN产生细胞。对这种IFN反应的了解有助于我们理解MERS-CoV发病机制,并且对于治疗方案的选择至关重要。
MERS-CoV在人类患者中引起具有高死亡率的严重呼吸道疾病。最近,确诊的人类病例在数量和地理分布上都急剧增加。了解这种高致病性冠状病毒的发病机制对于制定成功的治疗策略至关重要。本研究阐明了MERS-CoV与APC和pDCs的相互作用,特别是I型和III型IFN分泌的诱导。人pDCs是感知MERS-CoV的免疫细胞群体,但与对SARS-CoV的反应相比,分泌的IFN量显著更多,尤其是IFN-α。提出了一个分子病毒 - 宿主相互作用模型,概述了pDCs中IFN的诱导。接触后大量的IFN分泌表明该机制在MERS-CoV感染期间观察到的高度免疫激活中起关键作用。
