MPXV 以对 I 型干扰素敏感的方式感染人类 PBMCs

Laure Bosquillon de Jarcy, Dylan Postmus, Jenny Jansen, Julia Melchert, Donata Hoffmann, Victor Max Corman, Christine Goffinet
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引用次数: 0

摘要

MPOX病毒(MPXV)以前被称为猴痘病毒,从2022年5月开始迅速演变成大流行病,非洲大陆以外报告的病例超过9万例。这次大流行是由 MPXV 变种 IIb 驱动的。此外,随着病例不断增加,在刚果民主共和国(刚果(金))流行的 I 支系病毒越来越受到关注,2023 年首次发现的 Ib 支系病毒目前正与 Ia 支系病毒共同流行,似乎表现出更强的人际传播性。虽然大多数感染者表现为单发痘样病变的自限性疾病,但也有一些人忍受着全身性病毒传播,导致全身皮疹,并有坏死、器官缺失和死亡的风险。MPXV在人体内的宿主内传播和细胞滋养特性在很大程度上尚未得到研究。为了确定循环免疫细胞对 MPXV 的潜在易感性,我们将健康捐献者的人 PBMCs 在体内外暴露于目前循环的 MPXV IIb 支系病毒分离物,在无 IFN-α2a 和有 IFN-α2a 的情况下,对细胞裂解液(但上清液较少)提取的 DNA 进行 qPCR 检测,发现 MPXV DNA 数量不断增加,在暴露后五到六天达到峰值,表明 PBMCs 易受感染。IFN-α2a 预处理显著减少了 MPXV DNA 的数量,表明感染对 IFNs 敏感。从上清液中提取的斑块检测结果表明,感染后会重新产生具有传染性的 MPXV。在包含病毒的 scRNA 测序中,单核细胞、循环 NK 细胞和调节性 CD4+ T 细胞的病毒 RNA 呈阳性,表明这些是人类 PBMC 群体中 MPXV 易感细胞类型。对差异表达基因的分析表明,MPXV 感染细胞中驱动先天性免疫的表达途径明显下调,这是痘病毒感染的一个公认特征。用目前的抗病毒药物西多福韦酯和特考韦酯预处理 PBMC,可减少病毒抗原的产生量和释放的感染性,这表明人类 PBMC 感染模型适合作为评估目前和未来抗病毒药物的平台,并证明了研究西多福韦酯和特考韦酯作为减少患者体内病毒传播药物的试验是合理的。总之,我们的数据表明,人类 PBMC 在受到 MPXV 感染后,细胞环境会发生显著变化。我们的研究结果有可能揭示了 MPXV 在宿主体内传播的各个方面,其中可能涉及到淋巴血源性复制途径和/或宿主体内传播。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MPXV Infects Human PBMCs in a Type I Interferon-Sensitive Manner
MPOX virus (MPXV), formerly known as monkeypox virus, led to a rapidly evolving pandemic starting May 2022, with over 90,000 cases reported beyond the African continent. This pandemic outbreak was driven by the MPXV variant Clade IIb. In addition, Clade I viruses circulating in the Democratic Republic of Congo (DRC) are drawing increased attention as cases constantly rise and Clade Ib, first identified in 2023, is now co-circulating with Clade Ia and seems to exhibit enhanced human-to-human transmissibility. While most infected individuals display a self-limiting disease with singular pox-like lesions, some endure systemic viral spread leading to whole-body rash with risks for necrosis, organ loss, and death. Intra-host dissemination and cellular tropism of MPXV are largely unexplored in humans. To establish a potential susceptibility of circulating immune cells to MPXV, we exposed human PBMCs from healthy donors ex vivo to a currently circulating MPXV clade IIb virus isolate in absence and presence of IFN-α2a. qPCR of DNA extracted from cell lysates, but less from supernatants, revealed increasing MPXV DNA quantities that peaked at five to six days post-exposure, suggesting susceptibility of PBMCs to infection. IFN-α2a pretreatment markedly reduced the quantity of MPXV DNA, suggesting that infection is sensitive to type I IFNs. Plaque assays from supernatants showed that infection gave rise to de novo production of infectious MPXV. In virus-inclusive scRNA-sequencing, monocytes, cycling NK cells and regulatory CD4+ T-cells scored positive for viral RNA, suggesting that these are the MPXV-susceptible cell types within the human PBMC population. Analysis of differentially expressed genes displayed a pronounced downregulation of expression pathways driving innate immunity in MPXV-infected cells, a well-established feature of poxviral infection. Pretreatment of PBMCs with current antivirals Cidofovir and Tecovirimat resulted in reduced amounts of viral antigen production and of released infectivity, suggesting suitability of the human PBMC infection model as a platform for evaluation of current and future antivirals and justifying trials to investigate Cidofovir and Tecovirimat as drugs reducing intra-patient viral spread. Together, our data suggest that human PBMCs are productively infected by MPXV which is accompanied by significant modulation of the cellular milieu. Our results have the potential to illuminate aspects of intra-host propagation of MPXV that may involve a lymphohematogenous route for replication and/or intra-host dissemination.
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