Department of Microbiology, Icahn School of Medicine at Mount Sinai, New York, New York, USA Global Health and Emerging Pathogens Institute, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
Department of Microbiology, Icahn School of Medicine at Mount Sinai, New York, New York, USA Department of Obstetrics, Gynecology and Reproductive Science, Icahn School of Medicine at Mount Sinai, New York, New York, USA.
J Virol. 2014 Aug;88(16):9391-405. doi: 10.1128/JVI.00934-14. Epub 2014 Jun 11.
The ability of human cytomegalovirus (HCMV) to establish lifelong persistence and reactivate from latency is critical to its success as a pathogen. Here we describe a short-term in vitro model representing the events surrounding HCMV latency and reactivation in circulating peripheral blood monocytes that was developed in order to study the immunological consequence of latent virus carriage. Infection of human CD14(+) monocytes by HCMV resulted in the immediate establishment of latency, as evidenced by the absence of particular lytic gene expression, the transcription of latency-associated mRNAs, and the maintenance of viral genomes. Latent HCMV induced cellular differentiation to a macrophage lineage, causing production of selective proinflammatory cytokines and myeloid-cell chemoattractants that most likely play a role in virus dissemination in the host. Analysis of global cellular gene expression revealed activation of innate immune responses and the modulation of protein and lipid synthesis to accommodate latent HCMV infection. Remarkably, monocytes harboring latent virus exhibited selective responses to secondary stimuli known to induce an antiviral state. Furthermore, when challenged with type I and II interferon, latently infected cells demonstrated a blockade of signaling at the level of STAT1 phosphorylation. The data demonstrate that HCMV reprograms specific cellular pathways in monocytes, most notably innate immune responses, which may play a role in the establishment of, maintenance of, and reactivation from latency. The modulation of innate immune responses is likely a viral evasion strategy contributing to viral dissemination and pathogenesis in the host.
HCMV has the ability to establish a lifelong infection within the host, a phenomenon termed latency. We have established a short-term model system in human peripheral blood monocytes to study the immunological relevance of latent virus carriage. Infection of CD14(+) monocytes by HCMV results in the generation of latency-specific transcripts, maintenance of viral genomes, and the capacity to reenter the lytic cycle. During short-term latency in monocytes the virus initiates a program of differentiation to inflammatory macrophages that coincides with the modulation of cytokine secretion and specific cellular processes. HCMV-infected monocytes are hindered in their capacity to exert normal immunoprotective mechanisms. Additionally, latent virus disrupts type I and II interferon signaling at the level of STAT1 phosphorylation. This in vitro model system can significantly contribute to our understanding of the molecular and inflammatory factors that initiate HCMV reactivation in the host and allow the development of strategies to eradicate virus persistence.
人巨细胞病毒(HCMV)能够建立终身持续感染和从潜伏状态重新激活,这对其作为病原体的成功至关重要。在这里,我们描述了一种体外短期模型,该模型代表了循环外周血单核细胞中 HCMV 潜伏和重新激活的相关事件,旨在研究潜伏病毒携带的免疫后果。HCMV 感染人 CD14+单核细胞会立即建立潜伏状态,这一点可以从特定的裂解基因表达缺失、潜伏相关 mRNA 的转录以及病毒基因组的维持得到证明。潜伏的 HCMV 诱导单核细胞向巨噬细胞谱系分化,导致选择性促炎细胞因子和髓样细胞趋化因子的产生,这些细胞因子很可能在病毒在宿主中的传播中发挥作用。对细胞内基因表达的全面分析揭示了固有免疫反应的激活以及蛋白质和脂质合成的调节,以适应潜伏 HCMV 的感染。值得注意的是,携带潜伏病毒的单核细胞对已知能诱导抗病毒状态的二次刺激表现出选择性反应。此外,当用 I 型和 II 型干扰素刺激时,潜伏感染的细胞在 STAT1 磷酸化水平显示出信号阻断。数据表明,HCMV 在单核细胞中重新编程了特定的细胞途径,尤其是固有免疫反应,这可能在潜伏的建立、维持和重新激活中发挥作用。固有免疫反应的调节可能是病毒逃避策略的一部分,有助于病毒在宿主中的传播和发病机制。
HCMV 能够在宿主内建立终身感染,这一现象称为潜伏。我们已经在人类外周血单核细胞中建立了一个短期模型系统,以研究潜伏病毒携带的免疫学意义。HCMV 感染 CD14+单核细胞会产生潜伏特异性转录本,维持病毒基因组,并重新进入裂解周期。在单核细胞的短期潜伏期间,病毒启动了向炎症性巨噬细胞分化的程序,同时伴随着细胞因子分泌和特定细胞过程的调节。感染 HCMV 的单核细胞在发挥正常免疫保护机制方面受到阻碍。此外,潜伏病毒在 STAT1 磷酸化水平阻断 I 型和 II 型干扰素信号。该体外模型系统可显著有助于我们理解启动宿主中 HCMV 重新激活的分子和炎症因素,并为消除病毒持续感染的策略的发展提供依据。
