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用 HCV 阳性血清对原代人肝细胞进行体外感染:一种高度相关模型的研究进展。

In vitro infection of primary human hepatocytes by HCV-positive sera: insights on a highly relevant model.

机构信息

INSERM U1040, Montpellier, France Université Montpellier 1, Montpellier, France.

Université Montpellier 1, Montpellier, France INSERM U1058, Montpellier, France.

出版信息

Gut. 2014 Sep;63(9):1490-500. doi: 10.1136/gutjnl-2013-304623. Epub 2013 Oct 23.

DOI:10.1136/gutjnl-2013-304623
PMID:24153249
Abstract

OBJECTIVE

Adult primary human hepatocytes (PHHs) support the complete infection cycle of natural HCV from patients' sera. The molecular details underlying sera infectivity towards these cells remain largely unknown. Therefore, we sought to gain a deeper comprehension of these features in the most physiologically relevant culture system.

DESIGN

Using kinetic experiments, we defined the optimal conditions to infect PHH and explored the link between cell organisation and permissivity. Based on their infectivity, about 120 sera were classified in three groups. Concentration of 52 analytes was measured in 79 selected sera using multiplexed immunobead-based analyte profiling.

RESULTS

PHH permissivity towards HCV infection negatively correlated with cell polarisation and formation of functional bile canaliculi. PHH supported HCV replication for at least 2 weeks with de novo virus production. Depending on their reactivity, sera could be classified in three groups of high, intermediate or low infectivity toward PHH. Infectivity could not be predicted based on the donors' clinical characteristics, viral load or genotype. Interestingly, highly infectious sera displayed a specific cytokine profile with low levels of most of the 52 tested analytes. Among them, 24 cytokines/growth factors could impact hepatocyte biology and infection efficiency.

CONCLUSIONS

We identified critical factors leading to efficient PHH infection by HCV sera in vitro. Overall, we showed that this cellular model provides a useful tool for studying the mechanism of HCV infection in its natural host cell, selecting highly infectious isolates, and determining the potency of drugs towards various HCV strains.

摘要

目的

成人原代人肝细胞(PHH)支持来自患者血清的天然 HCV 的完整感染周期。血清对这些细胞的感染性的分子细节在很大程度上仍然未知。因此,我们试图在最生理相关的培养系统中更深入地了解这些特征。

设计

使用动力学实验,我们定义了感染 PHH 的最佳条件,并探索了细胞组织和易感性之间的联系。根据它们的感染性,约 120 份血清被分为三组。使用基于多重免疫珠的分析物分析,在 79 份选定的血清中测量了 52 种分析物的浓度。

结果

PHH 对 HCV 感染的易感性与细胞极化和功能性胆小管的形成呈负相关。PHH 至少支持 HCV 复制 2 周,同时产生新的病毒。根据其反应性,血清可分为对 PHH 具有高、中或低感染性的三组。感染性不能基于供体的临床特征、病毒载量或基因型来预测。有趣的是,高感染性血清显示出特定的细胞因子谱,其中大多数测试的 52 种分析物的水平较低。其中,24 种细胞因子/生长因子可能会影响肝细胞生物学和感染效率。

结论

我们确定了导致 HCV 血清在体外有效感染 PHH 的关键因素。总的来说,我们表明这种细胞模型为研究 HCV 在其自然宿主细胞中的感染机制、选择高感染性分离株以及确定各种 HCV 株药物的效力提供了有用的工具。

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