过度激活的IRF-1和STAT1通过干扰素α和γ共同治疗促进人肝癌细胞中干扰素刺激基因(ISG)的表达

Xiao-Nan Zhang , Jiang-Xia Liu , Yun-Wen Hu , Hui Chen , Zheng-Hong Yuan
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引用次数: 22

摘要

以往的报道表明,I型和II型干扰素可共同抑制某些病毒的复制,如HCV、SARS-CoV、HSV-1。为了找出这一现象背后的分子机制,我们分析了IFN-α和IFN-γ在Huh-7细胞中刺激的转录谱,发现IFN-α和γ同时存在时,包括BclG、XAF1、TRAIL和TAP1在内的IFN刺激基因(isg)亚群的转录增强。BclG的启动子分析表明,IRF-1和STAT1在这个过程中都是必需的。凝胶位移分析显示,干扰素共处理组IRF-1/DNA复合物形成增强。此外,IRF-1的激活在这组isg中通常是必需的。IFN联合处理可提高STAT1酪氨酸磷酸化水平,但只观察到GAS的超活化,未观察到ISRE的超活化。总之,当I型和II型ifn共同使用时,IRF-1的过度激活和STAT1二聚体形成的升高可能是两个通用的开关,它们有助于更强大的抗病毒功能来对抗病毒复制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hyper-activated IRF-1 and STAT1 contribute to enhanced Interferon stimulated gene (ISG) expression by Interferon α and γ co-treatment in human hepatoma cells

Previous reports suggest that type I and type II Interferon can co-operatively inhibit some virus replication, e.g. HCV, SARS-CoV, HSV-1. To find out the molecular mechanism underlying this phenomenon, we analyzed the transcription profile stimulated by IFN-α and IFN-γ in Huh-7 cells and found that the transcription of a subset of IFN stimulated genes (ISGs) including BclG, XAF1, TRAIL and TAP1 was enhanced when IFN-α and γ were both present. Promoter analysis of BclG revealed that IRF-1 and STAT1 were both required in this process. Enhanced IRF-1/DNA complex formation was observed in interferon co-treatment group by gel shift analysis. Furthermore, IRF-1 activation was found to be generally required in this cluster of ISGs. STAT1 tyrosine phosphorylation was elevated by IFN combination treatment, however, only the hyper-transactivation of GAS but not ISRE was observed. In conclusion, hyper-activation of IRF-1 and elevated STAT1 dimer formation may be two general switches which contribute to a much more robust antiviral symphony against virus replication when type I and type II IFNs are co-administered.

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