A Parasite Odyssey: An RNA virus concealed in Toxoplasma gondii

IF 5.5 2区 医学 Q1 VIROLOGY
Virus Evolution Pub Date : 2024-05-10 DOI:10.1093/ve/veae040
Purav Gupta, Aiden Hiller, Jawad Chowdhury, Declan Lim, Dillon Yee Lim, Jeroen P J Saeij, Artem Babaian, Felipe Rodriguez, Luke Pereira, Alex Morales
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Abstract

We are entering a “Platinum Age of Virus Discovery”, an era marked by exponential growth in the discovery of virus biodiversity, and driven by advances in metagenomics and computational analysis. In the ecosystem of a human (or any animal) there are more species of viruses than simply those directly infecting the animal cells. Viruses can infect all organisms constituting the microbiome, including bacteria, fungi, and unicellular parasites. Thus the complexity of possible interactions between host, microbe, and viruses is unfathomable. To understand this interaction network we must employ computationally-assisted virology as a means of analyzing and interpreting the millions of available samples to make inferences about the ways in which viruses may intersect human health. From a computational viral screen of human neuronal datasets, we identified a novel narnavirus Apocryptovirus odysseus (Ao) which likely infects the neurotropic parasite Toxoplasma gondii. Previously, several parasitic protozoan viruses (PPVs) have been mechanistically established as triggers of host innate responses, and here we present in silico evidence that Ao is a plausible pro-inflammatory factor in human and mouse cells infected by T. gondii. T. gondii infects billions of people worldwide, yet the prognosis of toxoplasmosis disease is highly variable, and PPVs like Ao could function as a hitherto undescribed hypervirulence factor. In a broader screen of over 7.6 million samples, we explored phylogenetically-proximal viruses to Ao and discovered 19 Apocryptovirus species, all found in libraries annotated as vertebrate transcriptome or metatranscriptomes. While samples containing this genus of narnaviruses are derived from sheep, goat, bat, rabbit, chicken, and pigeon samples, the presence of virus is strongly predictive of parasitic Apicomplexa nucleic acid co-occurrence, supporting that Apocryptovirus is a genus of parasite-infecting viruses. This is a computational proof-of-concept study in which we rapidly analyze millions of datasets from which we distilled a mechanistically, ecologically, and phylogenetically refined hypothesis. We predict this highly diverged Ao RNA virus is biologically a T. gondii infection, and that Ao, and other viruses like it, will modulate this disease which afflicts billions worldwide.
寄生虫奥德赛隐藏在弓形虫体内的 RNA 病毒
我们正在进入一个 "病毒发现的白金时代",这个时代的特点是病毒生物多样性的发现呈指数级增长,并受到元基因组学和计算分析技术进步的推动。在人类(或任何动物)的生态系统中,有更多种类的病毒,而不仅仅是那些直接感染动物细胞的病毒。病毒可以感染构成微生物组的所有生物,包括细菌、真菌和单细胞寄生虫。因此,宿主、微生物和病毒之间可能发生的相互作用的复杂性是深不可测的。要了解这一相互作用网络,我们必须采用计算辅助病毒学作为分析和解释数百万个可用样本的手段,从而推断病毒可能与人类健康产生交集的方式。通过对人类神经元数据集进行计算病毒筛选,我们发现了一种新型纳尼亚病毒 Apocryptovirus odysseus(Ao),它可能会感染神经寄生虫弓形虫。在此之前,几种寄生原生动物病毒(PPVs)已经从机理上被确定为宿主先天性反应的触发器,我们在此提出的硅学证据表明,Ao 在感染弓形虫的人类和小鼠细胞中是一种可信的促炎因子。淋病双球菌感染了全球数十亿人,但弓形虫病的预后却千差万别,而像 Ao 这样的 PPV 可作为一种迄今尚未描述过的高病毒性因子发挥作用。在对 760 多万个样本进行的更广泛筛选中,我们探索了 Ao 的系统发育近缘病毒,发现了 19 种 Apocryptovirus,它们都出现在注释为脊椎动物转录组或元转录组的文库中。虽然含有该纳尼亚病毒属的样本来自绵羊、山羊、蝙蝠、兔子、鸡和鸽子样本,但病毒的存在可强烈预测寄生虫Apicomplexa核酸共存情况,从而支持Apocryptovirus是寄生虫感染病毒属。这是一项计算概念验证研究,我们在其中快速分析了数百万个数据集,从中提炼出了一个从机制、生态学和系统发育角度加以完善的假说。我们预测,这种高度分化的 Ao RNA 病毒在生物学上是一种淋球菌感染,Ao 和其他类似病毒将调节这种困扰全球数十亿人的疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Virus Evolution
Virus Evolution Immunology and Microbiology-Microbiology
CiteScore
10.50
自引率
5.70%
发文量
108
审稿时长
14 weeks
期刊介绍: Virus Evolution is a new Open Access journal focusing on the long-term evolution of viruses, viruses as a model system for studying evolutionary processes, viral molecular epidemiology and environmental virology. The aim of the journal is to provide a forum for original research papers, reviews, commentaries and a venue for in-depth discussion on the topics relevant to virus evolution.
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