FORGE Life Science, Pennsylvania Biotechnology Center, Doylestown, Pennsylvania, USA.
Department of Translational Medicine, Baruch S. Blumberg Institute of Living Science, Institute for Hepatitis and Virus Research, Doylestown, Pennsylvania, USA.
J Virol. 2018 Oct 12;92(21). doi: 10.1128/JVI.00880-18. Print 2018 Nov 1.
Infections with human cytomegalovirus (HCMV) are highly prevalent in the general population as the virus has evolved the capacity to undergo distinct replication strategies resulting in lytic, persistent, and latent infections. During the latent life cycle, HCMV resides in subsets of cells within the hematopoietic cell compartment, including hematopoietic progenitor cells (HPCs) and peripheral blood monocytes. Since only a small fraction of these cell types harbor viral genomes during natural latency, identification and analysis of distinct changes mediated by viral infection are difficult to assess. In order to characterize latent infections of HPCs, we used an approach that involves complementation of deficiencies within the human pyrimidine salvage pathway, thus allowing for conversion of labeled uracil into rUTP. Here, we report the development of a recombinant HCMV that complements the defective human pyrimidine salvage pathway, allowing incorporation of thiol containing UTP into all RNA species that are synthesized within an infected cell. This virus grows to wild-type kinetics and can establish a latent infection within two distinct culture models of HCMV latency. Using this recombinant HCMV, we report the specific labeling of transcripts only within infected cells. These transcripts reveal a transcriptional landscape during HCMV latency that is distinct from uninfected cells. The utility of this labeling system allows for the identification of distinct changes within host transcripts and will shed light on characterizing how HCMV establishes and maintains latency. HCMV is a significant pathogen that accounts for a substantial amount of complications within the immunosuppressed and immunocompromised. Of particular significance is the capacity of HCMV to reactivate within solid tissue and bone marrow transplant recipients. While it is known that HCMV latency resides within a fraction of HPCs and monocytes, the exact subset of cells that harbor latent viral genomes during natural infections remain uncharacterized. The capacity to identify changes within the host transcriptome during latent infections is critical for developing approaches that therapeutically or physically eliminate latent viral genome containing cells and will represent a major breakthrough for reducing complications due to HCMV reactivation posttransplant. In this report, we describe the generation and use of a recombinant HCMV that allows specific and distinct labeling of RNA species that are produced within virally infected cells. This is a critical first step in identifying how HCMV affects the host cell during latency and more importantly, allows one to characterize cells that harbor latent HCMV.
人巨细胞病毒(HCMV)感染在普通人群中非常普遍,因为该病毒已经进化出独特的复制策略,导致裂解、持续和潜伏感染。在潜伏生命周期中,HCMV 存在于造血细胞隔室中的细胞亚群中,包括造血祖细胞(HPC)和外周血单核细胞。由于在自然潜伏期间,只有一小部分这些细胞类型携带病毒基因组,因此难以评估病毒感染介导的特定变化的识别和分析。为了描述 HPC 的潜伏感染,我们使用了一种方法,该方法涉及补充人类嘧啶补救途径中的缺陷,从而允许将标记的尿嘧啶转化为 rUTP。在这里,我们报告了一种能够补充缺陷的人类嘧啶补救途径的重组 HCMV 的开发,从而允许将含硫 UTP 掺入感染细胞内合成的所有 RNA 物种中。这种病毒以野生型动力学生长,可以在两种不同的 HCMV 潜伏培养模型中建立潜伏感染。使用这种重组 HCMV,我们报告了仅在感染细胞内特异性标记转录本。这些转录本揭示了 HCMV 潜伏期间与未感染细胞不同的转录景观。该标记系统的实用性允许鉴定宿主转录本中的独特变化,并将阐明 HCMV 如何建立和维持潜伏。HCMV 是一种重要的病原体,在免疫抑制和免疫功能低下患者中会引起大量并发症。特别重要的是 HCMV 在实体组织和骨髓移植受者中重新激活的能力。虽然已知 HCMV 潜伏存在于 HPC 和单核细胞的一部分中,但在自然感染期间携带潜伏病毒基因组的确切细胞亚群仍未被描述。鉴定潜伏感染期间宿主转录组内变化的能力对于开发治疗或物理消除包含潜伏病毒基因组的细胞的方法至关重要,这将是减少移植后由于 HCMV 重新激活引起的并发症的重大突破。在本报告中,我们描述了一种重组 HCMV 的产生和使用,该病毒允许对感染病毒的细胞内产生的 RNA 物种进行特异性和独特的标记。这是识别 HCMV 在潜伏期间如何影响宿主细胞的关键第一步,更重要的是,它允许人们对携带潜伏 HCMV 的细胞进行特征描述。
