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单纯疱疹病毒 1 株 17 和 KOS(M) 在从人神经元中重新激活的能力上有很大差异。

Herpes Simplex Virus 1 Strains 17 and KOS(M) Differ Greatly in Their Ability To Reactivate from Human Neurons .

机构信息

Department of Molecular Genetics & Microbiology, University of Florida College of Medicine, Gainesville, Florida, USA.

Department of Molecular Genetics & Microbiology, University of Florida College of Medicine, Gainesville, Florida, USA

出版信息

J Virol. 2020 Jul 16;94(15). doi: 10.1128/JVI.00796-20.

Abstract

Herpes simplex virus 1 (HSV-1) establishes a lifelong latent infection in peripheral nerve ganglia. Periodically, the virus reactivates from this latent reservoir and is transported to the original site of infection. Strains of HSV-1 have been noted to vary greatly in their virulence and reactivation efficiencies in animal models. While HSV-1 strain 17 can be readily reactivated, strain KOS(M) shows little to no reactivation in the mouse and rabbit models of induced reactivation. Additionally, 17 is markedly more virulent than KOS. This has raised questions regarding potential strain-specific differences in neuroinvasion and neurovirulence and their contribution to differences in the establishment of latency (or ability to spread back to the periphery) and to the reactivation phenotype. To determine if any difference in the ability to reactivate between strains 17 and KOS(M) is manifest at the level of neurons, we utilized a recently characterized human neuronal cell line model of HSV latency and reactivation (LUHMES). We found that KOS(M) established latency with a higher number of viral genomes than strain 17 Strikingly, we show that the KOS(M) viral genomes have a higher burden of heterochromatin marks than strain 17 The increased heterochromatin profile for KOS(M) correlates with the reduced expression of viral lytic transcripts during latency and impaired induced reactivation compared to that of 17 These results suggest that genomes entering neurons from HSV-1 infections with strain KOS(M) are more prone to rapid heterochromatinization than those of 17 and that this results in a reduced ability to reactivate from latency. Herpes simplex virus 1 (HSV-1) establishes a lifelong infection in neuronal cells. The virus periodically reactivates and causes recurrent disease. Strains of HSV-1 vary greatly in their virulence and potential to reactivate in animal models. Although these differences are phenotypically well defined, factors contributing to the strains' abilities to reactivate are largely unknown. We utilized a human neuronal cell line model of HSV latency and reactivation (LUHMES) to characterize the latent infection of two HSV-1 wild-type strains. We find that strain-specific differences in reactivation are recapitulated in LUHMES. Additionally, these differences correlate with the degree of heterochromatinization of the latent genomes. Our data suggest that the epigenetic state of the viral genome is an important determinant of reactivation that varies in a strain-specific manner. This work also shows the first evidence of strain-specific differences in reactivation outside the context of the whole animal at a human neuronal cell level.

摘要

单纯疱疹病毒 1(HSV-1)在周围神经节中建立终身潜伏感染。病毒会定期从这个潜伏库中重新激活,并被运送到最初的感染部位。在动物模型中,已经注意到 HSV-1 株的毒力和再激活效率有很大差异。虽然 HSV-1 株 17 很容易被重新激活,但株 KOS(M)在诱导再激活的小鼠和兔模型中几乎没有再激活。此外,17 的毒力明显比 KOS 更强。这引发了关于神经侵袭和神经毒力的潜在株特异性差异及其对潜伏期建立(或传播回外周的能力)和再激活表型差异的影响的问题。为了确定株 17 和 KOS(M)之间再激活能力的差异是否在神经元水平上表现出来,我们利用了一种最近表征的 HSV 潜伏和再激活的人神经元细胞系模型(LUHMES)。我们发现 KOS(M)建立潜伏时的病毒基因组数量比株 17 多。令人惊讶的是,我们表明 KOS(M)病毒基因组的异染色质标记负担比株 17 高。与 17 相比,KOS(M)的异染色质谱增加与潜伏期间病毒裂解转录物的表达减少和诱导再激活受损相关。这些结果表明,从 KOS(M)感染的神经元进入的基因组比 17 更容易迅速异染色质化,并且导致从潜伏中再激活的能力降低。单纯疱疹病毒 1(HSV-1)在神经元细胞中建立终身感染。病毒会周期性地重新激活并导致复发性疾病。HSV-1 株在动物模型中的毒力和再激活能力有很大差异。尽管这些差异在表型上定义得很好,但导致这些菌株再激活能力的因素在很大程度上是未知的。我们利用一种 HSV 潜伏和再激活的人神经元细胞系模型(LUHMES)来描述两种 HSV-1 野生型株的潜伏感染。我们发现,再激活的株特异性差异在 LUHMES 中得到了重现。此外,这些差异与潜伏基因组的异染色质化程度相关。我们的数据表明,病毒基因组的表观遗传状态是再激活的一个重要决定因素,其在株特异性方面存在差异。这项工作还首次在人类神经元细胞水平上,在整个动物之外的背景下,证明了再激活的株特异性差异。

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