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ESCDL-1是一种源自鸡胚胎干细胞的新细胞系,可支持马尔迪病毒的高效复制。

ESCDL-1, a new cell line derived from chicken embryonic stem cells, supports efficient replication of Mardiviruses.

作者信息

Vautherot Jean-François, Jean Christian, Fragnet-Trapp Laetitia, Rémy Sylvie, Chabanne-Vautherot Danièle, Montillet Guillaume, Fuet Aurélie, Denesvre Caroline, Pain Bertrand

机构信息

ISP, INRA, Université François Rabelais de Tours, UMR 1282, Nouzilly, France.

Univ Lyon, Université Lyon 1, INSERM, INRA, Stem Cell and Brain Research Institute, U1208, USC1361, Bron, France.

出版信息

PLoS One. 2017 Apr 13;12(4):e0175259. doi: 10.1371/journal.pone.0175259. eCollection 2017.

DOI:10.1371/journal.pone.0175259
PMID:28406989
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5391029/
Abstract

Marek's disease virus is the etiological agent of a major lymphoproliferative disorder in poultry and the prototype of the Mardivirus genus. Primary avian somatic cells are currently used for virus replication and vaccine production, but they are largely refractory to any genetic modification compatible with the preservation of intact viral susceptibility. We explored the concept of induction of viral replication permissiveness in an established pluripotent chicken embryonic stem cell-line (cES) in order to derive a new fully susceptible cell-line. Chicken ES cells were not permissive for Mardivirus infection, but as soon as differentiation was triggered, replication of Marek's disease virus was detected. From a panel of cyto-differentiating agents, hexamethylene bis (acetamide) (HMBA) was found to be the most efficient regarding the induction of permissiveness. These initial findings prompted us to analyse the effect of HMBA on gene expression, to derive a new mesenchymal cell line, the so-called ESCDL-1, and monitor its susceptibility for Mardivirus replication. All Mardiviruses tested so far replicated equally well on primary embryonic skin cells and on ESCDL-1, and the latter showed no variation related to its passage number in its permissiveness for virus infection. Viral morphogenesis studies confirmed efficient multiplication with, as in other in vitro models, no extra-cellular virus production. We could show that ESCDL-1 can be transfected to express a transgene and subsequently cloned without any loss in permissiveness. Consequently, ESCDL-1 was genetically modified to complement viral gene deletions thus yielding stable trans-complementing cell lines. We herein claim that derivation of stable differentiated cell-lines from cES cell lines might be an alternative solution to the cultivation of primary cells for virology studies.

摘要

马立克氏病病毒是家禽主要淋巴增生性疾病的病原体,也是马立克病毒属的原型。目前,原代禽体细胞用于病毒复制和疫苗生产,但它们在很大程度上对任何与保持完整病毒易感性兼容的基因修饰都具有抗性。我们探索了在已建立的多能鸡胚胎干细胞系(cES)中诱导病毒复制许可性的概念,以获得一种新的完全易感细胞系。鸡胚胎干细胞对马立克病毒感染不敏感,但一旦触发分化,就会检测到马立克氏病病毒的复制。从一组细胞分化剂中发现,六亚甲基双(乙酰胺)(HMBA)在诱导许可性方面最为有效。这些初步发现促使我们分析HMBA对基因表达的影响,获得一种新的间充质细胞系,即所谓的ESCDL-1,并监测其对马立克病毒复制的易感性。到目前为止,所有测试的马立克病毒在原代胚胎皮肤细胞和ESCDL-1上的复制效果相同,并且后者在病毒感染易感性方面与其传代次数无关。病毒形态发生研究证实了高效增殖,与其他体外模型一样,没有细胞外病毒产生。我们可以证明ESCDL-1可以被转染以表达转基因,随后进行克隆,而其许可性不会有任何损失。因此,对ESCDL-1进行基因改造以补充病毒基因缺失,从而产生稳定的反式互补细胞系。我们在此声称,从cES细胞系中获得稳定的分化细胞系可能是病毒学研究中原代细胞培养的另一种解决方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/696c/5391029/d6de7f1ca6a8/pone.0175259.g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/696c/5391029/02c6cdd020af/pone.0175259.g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/696c/5391029/d6de7f1ca6a8/pone.0175259.g009.jpg
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