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首页> 美国卫生研究院文献>PLoS Pathogens >Exosomes serve as novel modes of tick-borne flavivirus transmission from arthropod to human cells and facilitates dissemination of viral RNA and proteins to the vertebrate neuronal cells
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Exosomes serve as novel modes of tick-borne flavivirus transmission from arthropod to human cells and facilitates dissemination of viral RNA and proteins to the vertebrate neuronal cells

机译:外来体充当节肢传播的黄病毒从节肢动物向人类细胞传播的新型方式并促进病毒RNA和蛋白质向脊椎动物神经元细胞的传播

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Molecular determinants and mechanisms of arthropod-borne flavivirus transmission to the vertebrate host are poorly understood. In this study, we show for the first time that a cell line from medically important arthropods, such as ticks, secretes extracellular vesicles (EVs) including exosomes that mediate transmission of flavivirus RNA and proteins to the human cells. Our study shows that tick-borne Langat virus (LGTV), a model pathogen closely related to tick-borne encephalitis virus (TBEV), profusely uses arthropod exosomes for transmission of viral RNA and proteins to the human- skin keratinocytes and blood endothelial cells. Cryo-electron microscopy showed the presence of purified arthropodeuronal exosomes with the size range of 30 to 200 nm in diameter. Both positive and negative strands of LGTV RNA and viral envelope-protein were detected inside exosomes derived from arthropod, murine and human cells. Detection of Nonstructural 1 (NS1) protein in arthropod and neuronal exosomes further suggested that exosomes contain viral proteins. Viral RNA and proteins in exosomes derived from tick and mammalian cells were secured, highly infectious and replicative in all tested evaluations. Treatment with GW4869, a selective inhibitor that blocks exosome release affected LGTV loads in both arthropod and mammalian cell-derived exosomes. Transwell-migration assays showed that exosomes derived from infected-brain-microvascular endothelial cells (that constitute the blood-brain barrier) facilitated LGTV RNA and protein transmission, crossing of the barriers and infection of neuronal cells. Neuronal infection showed abundant loads of both tick-borne LGTV and mosquito-borne West Nile virus RNA in exosomes. Our data also suggest that exosome-mediated LGTV viral transmission is clathrin-dependent. Collectively, our results suggest that flaviviruses uses arthropod-derived exosomes as a novel means for viral RNA and protein transmission from the vector, and the vertebrate exosomes for dissemination within the host that may subsequently allow neuroinvasion and neuropathogenesis.
机译:节肢动物传播的黄病毒传播到脊椎动物宿主的分子决定因素和机制知之甚少。在这项研究中,我们首次展示了来自医学上重要节肢动物(例如壁虱)的细胞系分泌细胞外囊泡(EVs),包括介导黄病毒RNA和蛋白质向人细胞传播的外来体。我们的研究表明,与tick传播性脑炎病毒(TBEV)密切相关的模型病原体tick传播的兰加特病毒(LGTV)大量使用节肢动物外泌体,将病毒RNA和蛋白质传递至人皮肤角质形成细胞和血液内皮细胞。低温电子显微镜检查显示存在纯化的节肢动物/神经元外泌体,其直径范围为30至200 nm。在节肢动物,鼠类和人类细胞来源的外泌体中检测到LGTV RNA的正链和负链以及病毒包膜蛋白。节肢动物和神经元外泌体中非结构性1(NS1)蛋白的检测进一步表明外泌体中含有病毒蛋白。在所有测试评估中,来自壁虱和哺乳动物细胞的外来体中的病毒RNA和蛋白质均得到了固定,高度感染和复制。用GW4869(一种抑制外泌体释放的选择性抑制剂)进行治疗会影响节肢动物和哺乳动物细胞衍生外泌体中的LGTV负荷。 Transwell迁移分析表明,源自感染的脑微血管内皮细胞(构成血脑屏障)的外泌体促进了LGTV RNA和蛋白质的传递,屏障的穿越以及神经元细胞的感染。神经元感染显示外来体中tick传播的LGTV和蚊传播的西尼罗河病毒RNA大量负载。我们的数据还表明,外泌体介导的LGTV病毒传播是网格蛋白依赖性的。总的来说,我们的结果表明黄病毒使用节肢动物衍生的外来体作为从载体传播病毒RNA和蛋白质的新手段,而脊椎动物外来体则用于在宿主内传播,随后可能允许神经入侵和神经发病。

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