A measles virus collective infectious unit that caused lethal human brain disease includes many locally restricted and few widespread copy-back defective genomes.

IF 4 2区 医学 Q2 VIROLOGY
Journal of Virology Pub Date : 2024-11-19 Epub Date: 2024-10-21 DOI:10.1128/jvi.01232-24
Biruhalem Taye, Iris Yousaf, Chanakha K Navaratnarajah, Declan C Schroeder, Christian K Pfaller, Roberto Cattaneo
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引用次数: 0

Abstract

During virus replication in cultured cells, copy-back defective viral genomes (cbDVGs) can arise. CbDVGs are powerful inducers of innate immune responses in vitro, but their occurrence and impact on natural infections of human hosts remain poorly defined. We asked whether cbDVGs were generated in the brain of a patient who succumbed to subacute sclerosing panencephalitis (SSPE) about 20 years after acute measles virus (MeV) infection. Previous analyses of 13 brain specimens of this patient indicated that a collective infectious unit (CIU) drove lethal MeV spread. In this study, we identified 276 replication-competent cbDVG species, each present in over 100 copies in the brain. Six species were detected in multiple forebrain locations, implying that they travelled long-distance with the CIU. The cbDVG to full-length genomes ratio was often close to 1 (0.6-1.74). Most cbDVGs were 324-2,000 bases in length, corresponding to 2%-12% of the full-length genome; all are predicted to have complementary terminal sequences. If improperly encapsidated, these sequences have the potential to form double-stranded structures that can induce innate immune responses. To assess this, we examined the transcriptome of all brain specimens. Several interferon and inflammatory response genes were upregulated, but upregulation levels did not correlate with cbDVG levels in the specimens. Thus, the CIU that drove MeV pathogenesis in this brain includes, in addition to two complementary full-length genome populations, many locally restricted and few widespread cbDVG species. The widespread cbDVG species may have been positively selected but how they impacted pathogenesis remains to be determined.IMPORTANCECopy-back defective viral genomes (cbDVGs) can drive virus-host interactions. They can suppress virus replication directly, by competing with full-length genomes, or indirectly by stimulating antiviral immunity. In vitro, cbDVG can slow down infections and promote persistence, but there is limited documentation of their presence in human hosts or of their impact on disease. We had the unique opportunity to analyze the brain of a patient who succumbed to subacute sclerosing panencephalitis, a rare but lethal consequence of measles. We detected more than 270 distinct cbDVG species; most were restricted to one specimen, but several reached all lobes of the forebrain, suggesting positive selection. Our analyses provide the missing knowledge of the diversity of cbDVG in a natural infection of a human host. They also reveal that a collective infectious unit that caused lethal human brain disease includes few widespread cbDVG, in addition to two ubiquitous complementary full-length genome populations.

导致致命性人类脑部疾病的麻疹病毒集体感染单元包括许多局部限制性和少数广泛回拷缺陷基因组。
病毒在培养细胞中复制过程中,可能会出现回拷缺陷病毒基因组(cbDVGs)。cbDVGs 在体外能强烈诱导先天性免疫反应,但它们的出现及其对人类宿主自然感染的影响仍不十分明确。一名患者在感染急性麻疹病毒(MeV)约 20 年后死于亚急性硬化性全脑炎(SSPE),我们想知道在这名患者的大脑中是否产生了 cbDVG。此前对该患者 13 个脑标本的分析表明,一个集体感染单元(CIU)推动了致命的 MeV 传播。在这项研究中,我们发现了 276 种具有复制能力的 cbDVG,每种在大脑中都有超过 100 个拷贝。在多个前脑位置检测到六个物种,这意味着它们随 CIU 远距离传播。cbDVG 与全长基因组的比率通常接近 1(0.6-1.74)。大多数 cbDVG 的长度为 324-2,000 碱基,相当于全长基因组的 2%-12%;所有 cbDVG 都有互补的末端序列。如果封装不当,这些序列有可能形成双链结构,从而诱发先天性免疫反应。为了评估这一点,我们检查了所有脑标本的转录组。一些干扰素和炎症反应基因被上调,但上调水平与标本中的 cbDVG 水平并不相关。因此,在该大脑中驱动 MeV 发病的 CIU 除了两个互补的全长基因组群外,还包括许多局部限制性 cbDVG 物种和少数广泛分布的 cbDVG 物种。广泛分布的cbDVG物种可能是经过积极选择的,但它们如何影响致病机制仍有待确定。它们可以通过与全长基因组竞争而直接抑制病毒复制,或通过刺激抗病毒免疫而间接抑制病毒复制。在体外,cbDVG 可减缓感染速度并促进病毒的持续存在,但关于它们在人类宿主中的存在或对疾病的影响的文献却很有限。我们有独特的机会分析了一位死于亚急性硬化性泛脑炎(一种罕见但致命的麻疹后遗症)患者的大脑。我们检测到了 270 多种不同的 cbDVG;其中大多数仅限于一个标本,但也有几种到达了前脑的所有脑叶,这表明存在正向选择。我们的分析提供了有关人类宿主自然感染中 cbDVG 多样性的缺失知识。它们还揭示了导致致命性人类脑部疾病的集体感染单元,除了两个无处不在的互补全长基因组种群外,还包括少数广泛存在的 cbDVG。
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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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