体外分析鸡气管上皮细胞对禽流感病毒的抗病毒免疫反应。

IF 2.4 2区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Animal Bioscience Pub Date : 2024-11-01 Epub Date: 2024-08-22 DOI:10.5713/ab.24.0117
Jubi Heo, Thi Hao Vu, C H Kim, Anh Duc Truong, Yeong Ho Hong
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引用次数: 0

摘要

目的:禽流感病毒(AIV)感染首先影响鸡的呼吸道。上皮细胞激活宿主免疫系统,从而诱导免疫相关基因,产生抗病毒分子,抵御外界环境病原体的侵袭。本研究利用鸡气管上皮细胞(TECs)体外模型研究鸡呼吸道对禽流感病毒感染的免疫反应:方法:用18日龄的胚胎鸡卵培养原代鸡气管上皮细胞。方法:用 18 天龄的胚胎鸡卵培养原代鸡 TECs,进行反转录聚合酶链反应(RT-PCR)和免疫细胞化学(ICC)分析上皮细胞特异性基因制造商,以确认原代培养鸡 TECs 的特征、形态和生长模式。此外,为了研究细胞对 AIV 感染或多聚肌苷酸(poly (I:C))处理的免疫反应,用 H5N1 病毒或多聚肌苷酸(poly (I:C))感染了 TECs。然后,通过 RT-qPCR 和 Western 印迹验证免疫反应:结果:TECs呈现多边形形态,并形成集落型细胞簇。RT-qPCR 结果显示,H5N1 感染诱导了 TECs 中抗病毒基因的显著表达。我们发现,经 poly (I:C) 处理并暴露于 AIV 感染介导的信号通路激活下的 TECs,可产生抗病毒分子(如促炎细胞因子和趋化因子),但由于交界蛋白的缺失而受损。我们观察到核因子卡巴B(NF-κB)和丝裂原活化蛋白激酶(MAPK)通路被激活,这些通路通过调节促炎细胞因子和趋化因子的释放参与了多聚 (I:C) 和通路抑制剂处理的 TECs 的炎症反应。此外,我们的研究结果表明,聚(I:C)处理会影响细胞膜上的连接蛋白,从而损害上皮细胞屏障:我们的研究强调了体外 TEC 模型在揭示鸡呼吸道病毒感染机制和了解宿主免疫反应方面的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In vitro analysis of antiviral immune response against avian influenza virus in chicken tracheal epithelial cells.

Objective: Avian influenza virus (AIV) infections first affect the respiratory tract of chickens. The epithelial cells activate the host immune system, which leads to the induction of immune-related genes and the production of antiviral molecules against external environmental pathogens. In this study, we used chicken tracheal epithelial cells (TECs) in vitro model to investigate the immune response of the chicken respiratory tract against avian respiratory virus infections.

Methods: Eighteen-day-old embryonic chicken eggs were used to culture the primary chicken TECs. Reverse transcription-polymerase chain reaction (RT-PCR) and immunocytochemistry (ICC) analysis of epithelial cell-specific gene makers were performed to confirm the characteristics, morphology, and growth pattern of primary cultured chicken TECs. Moreover, to investigate the cellular immune response to AIV infection or polyinosinic-polycytidylic acid (poly [I:C]) treatment, the TECs were infected with the H5N1 virus or poly (I:C). Then, immune responses were validated by RT-qPCR and western blotting.

Results: The TECs exhibited polygonal morphology and formed colony-type cell clusters. The RT-qPCR results showed that H5N1 infection induced a significant expression of antiviral genes in TECs. We found that TECs treated with poly (I:C) and exposed to AIV infection-mediated activation of signaling pathways, leading to the production of antiviral molecules (e.g., pro-inflammatory cytokines and chemokines), were damaged due to the loss of junction proteins. We observed the activation of the nuclear factor kappa B and mitogen-activated protein kinase (MAPK) pathways, which are involved in inflammatory response by modulating the release of pro-inflammatory cytokines and chemokines in TECs treated with poly (I:C) and pathway inhibitors. Furthermore, our findings indicated that poly (I:C) treatment compromises the epithelial cell barrier by affecting junction proteins in the cell membrane.

Conclusion: Our study highlights the utility of in vitro TEC models for unraveling the mechanisms of viral infection and understanding host immune responses in the chicken respiratory tract.

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来源期刊
Animal Bioscience
Animal Bioscience AGRICULTURE, DAIRY & ANIMAL SCIENCE-
CiteScore
5.00
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0.00%
发文量
223
审稿时长
3 months
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