HCMV菌株和细胞类型特异性膜接触点的改变表明细胞器重塑的调控是趋同的。

IF 4 2区 医学 Q2 VIROLOGY Journal of Virology Pub Date : 2024-11-19 Epub Date: 2024-10-31 DOI:10.1128/jvi.01099-24
William A Hofstadter, Ji Woo Park, Krystal K Lum, Sophia Chen, Ileana M Cristea
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引用次数: 0

摘要

病毒是一种无处不在的实体,可感染各生命界的生物体。虽然病毒可以感染一系列细胞、组织和生物体,但在细胞培养分析中往往没有探讨这方面的问题。关于不同细胞环境中哪些感染诱导的变化是共同的,哪些是不同的,这方面的信息十分有限。流行病原体人类巨细胞病毒(HCMV)会重塑亚细胞器及其由膜接触点(MCSs)形成的互连网络的结构和功能。这方面的大部分知识都来自感染了实验室改良 HCMV 株系的成纤维细胞。在这里,我们评估了 HCMV 诱导的 MCSs 和细胞器重塑中菌株和细胞类型特异性的改变。通过整合定量质谱分析、超分辨率显微镜和分子病毒学检测方法,我们比较了成纤维细胞和上皮细胞中实验室适配的 HCMV 株系和低传代 HCMV 株系的感染情况。我们发现,尽管未感染的成纤维细胞和上皮细胞之间存在基线蛋白质组差异,但感染会诱发趋同性变化,而且非常相似。我们发现,成纤维细胞感染 HCMV 的标志--线粒体-内质网(ER)包裹和过氧物酶体增殖--在受感染的上皮细胞和类巨噬细胞中也是一致的。在探索细胞类型特异性差异时,我们发现成纤维细胞依赖于内体胆固醇运输,而上皮细胞则依赖于来自高尔基体的胆固醇。尽管存在这些机理上的差异,但两种细胞类型的感染都会导致病毒组装复合体出现表型相似的胆固醇积累。我们的研究结果突显了 HCMV 的适应性,即感染可以通过诱导共享和独特的蛋白质组改变来适应初始细胞状态,最终促进统一的亲病毒环境的形成。然而,人们仍不完全清楚 HCMV 复制在不同细胞类型中是如何变化的。在这里,我们比较了实验室适应株和低通过率株在肺成纤维细胞和视网膜上皮细胞这两个主要感染部位的 HCMV 复制情况。我们发现,尽管这些细胞类型在感染前显示出不同的蛋白质组成,但在感染 HCMV 后会发生趋同性改变,在感染后期达到更相似的细胞状态。我们发现,通过改变细胞器的结构-功能及其通过膜接触点形成的互连网络,亚细胞景观的重塑是 HCMV 感染的一个普遍特征。我们的研究结果表明,不同类型细胞中的 HCMV 感染如何诱导细胞过程发生共同或不同的变化,并最终导致更加统一的状态。
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HCMV strain- and cell type-specific alterations in membrane contact sites point to the convergent regulation of organelle remodeling.

Viruses are ubiquitous entities that infect organisms across the kingdoms of life. While viruses can infect a range of cells, tissues, and organisms, this aspect is often not explored in cell culture analyses. There is limited information about which infection-induced changes are shared or distinct in different cellular environments. The prevalent pathogen human cytomegalovirus (HCMV) remodels the structure and function of subcellular organelles and their interconnected networks formed by membrane contact sites (MCSs). A large portion of this knowledge has been derived from fibroblasts infected with a lab-adapted HCMV strain. Here, we assess strain- and cell type-specific alterations in MCSs and organelle remodeling induced by HCMV. Integrating quantitative mass spectrometry, super-resolution microscopy, and molecular virology assays, we compare infections with lab-adapted and low-passage HCMV strains in fibroblast and epithelial cells. We determine that, despite baseline proteome disparities between uninfected fibroblast and epithelial cells, infection induces convergent changes and is remarkably similar. We show that hallmarks of HCMV infection in fibroblasts, mitochondria-endoplasmic reticulum (ER) encapsulations and peroxisome proliferation, are also conserved in infected epithelial and macrophage-like cells. Exploring cell type-specific differences, we demonstrate that fibroblasts rely on endosomal cholesterol transport while epithelial cells rely on cholesterol from the Golgi. Despite these mechanistic differences, infections in both cell types result in phenotypically similar cholesterol accumulation at the viral assembly complex. Our findings highlight the adaptability of HCMV, in that infections can be tailored to the initial cell state by inducing both shared and unique proteome alterations, ultimately promoting a unified pro-viral environment.IMPORTANCEHuman cytomegalovirus (HCMV) establishes infections in diverse cell types throughout the body and is connected to a litany of diseases associated with each of these tissues. However, it is still not fully understood how HCMV replication varies in distinct cell types. Here, we compare HCMV replication with lab-adapted and low-passage strains in two primary sites of infection, lung fibroblasts and retinal epithelial cells. We discover that, despite displaying disparate protein compositions prior to infection, these cell types undergo convergent alterations upon HCMV infection, reaching a more similar cellular state late in infection. We find that remodeling of the subcellular landscape is a pervasive feature of HCMV infection, through alterations to both organelle structure-function and the interconnected networks they form via membrane contact sites. Our findings show how HCMV infection in different cell types induces both shared and divergent changes to cellular processes, ultimately leading to a more unified state.

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来源期刊
Journal of Virology
Journal of Virology 医学-病毒学
CiteScore
10.10
自引率
7.40%
发文量
906
审稿时长
1 months
期刊介绍: Journal of Virology (JVI) explores the nature of the viruses of animals, archaea, bacteria, fungi, plants, and protozoa. We welcome papers on virion structure and assembly, viral genome replication and regulation of gene expression, genetic diversity and evolution, virus-cell interactions, cellular responses to infection, transformation and oncogenesis, gene delivery, viral pathogenesis and immunity, and vaccines and antiviral agents.
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