利用高度敏感的链特异性定量 PCR 鉴定呼吸道合胞病毒病小鼠模型中的失败复制。

Use of a highly sensitive strand-specific quantitative PCR to identify abortive replication in the mouse model of respiratory syncytial virus disease.

机构信息

Infectious Diseases Group, Pfizer Global Research and Development, Sandwich, Kent CT13 9NJ, UK.

出版信息

Virol J. 2010 Sep 22;7:250. doi: 10.1186/1743-422X-7-250.

DOI:10.1186/1743-422X-7-250

PMID:20860795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2954858/

Abstract

BACKGROUND

The BALB/c mouse is commonly used to study RSV infection and disease. However, despite the many advantages of this well-characterised model, the inoculum is large, viral replication is restricted and only a very small amount of virus can be recovered from infected animals. A key question in this model is the fate of the administered virus. Is replication really being measured or is the model measuring the survival of the virus over time? To answer these questions we developed a highly sensitive strand-specific quantitative PCR (QPCR) able to accurately quantify the amount of RSV replication in the BALB/c mouse lung, allowing characterisation of RSV negative and positive strand RNA dynamics.

RESULTS

In the mouse lung, no increase in RSV genome was seen above the background of the original inoculum whilst only a limited transient increase (< 1 log) in positive strand, replicative intermediate (RI) RNA occurred. This RNA did however persist at detectable levels for 59 days post infection. As expected, ribavirin therapy reduced levels of infectious virus and RI RNA in the mouse lung. However, whilst Palivizumab therapy was also able to reduce levels of infectious virus, it failed to prevent production of intracellular RI RNA. A comparison of RSV RNA kinetics in human (A549) and mouse (KLN205) cell lines demonstrated that RSV replication was also severely delayed and impaired in vitro in the mouse cells.

CONCLUSIONS

This is the first time that such a sensitive strand-specific QPCR technique has been to the RSV mouse system. We have accurately quantified the restricted and abortive nature of RSV replication in the mouse. Further in vitro studies in human and mouse cells suggest this restricted replication is due at least in part to species-specific host cell-viral interactions.

摘要

背景

BALB/c 小鼠常用于研究 RSV 感染和疾病。然而，尽管这种经过充分研究的模型具有许多优点，但接种剂量大、病毒复制受限，且从感染动物中只能回收非常少量的病毒。在该模型中，一个关键问题是接种病毒的命运。测量的是真正的复制，还是模型在随着时间推移测量病毒的存活？为了回答这些问题，我们开发了一种高度敏感的链特异性定量 PCR（QPCR），能够准确地量化 BALB/c 小鼠肺中的 RSV 复制量，从而能够对 RSV 负链和正链 RNA 动力学进行特征描述。

结果

在小鼠肺中，在原始接种剂量的背景下，没有观察到 RSV 基因组的增加，而仅出现有限的短暂正链、复制中间体（RI）RNA 增加（<1 对数）。然而，这种 RNA 仍然在感染后 59 天内保持可检测水平。如预期的那样，利巴韦林治疗降低了小鼠肺中的感染性病毒和 RI RNA 水平。然而，虽然 Palivizumab 治疗也能够降低感染性病毒的水平，但它未能阻止细胞内 RI RNA 的产生。RSV RNA 动力学在人（A549）和鼠（KLN205）细胞系中的比较表明，RSV 复制在小鼠细胞中也受到严重延迟和损害。

结论

这是首次将如此敏感的链特异性 QPCR 技术应用于 RSV 小鼠系统。我们准确地量化了 RSV 在小鼠中的受限和流产复制性质。进一步在人源和鼠源细胞中的体外研究表明，这种受限复制至少部分归因于种特异性宿主细胞-病毒相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/02fb/2954858/bddf4f2324fd/1743-422X-7-250-1.jpg

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利用高度敏感的链特异性定量 PCR 鉴定呼吸道合胞病毒病小鼠模型中的失败复制。

Use of a highly sensitive strand-specific quantitative PCR to identify abortive replication in the mouse model of respiratory syncytial virus disease.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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