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曲古抑菌素A通过抑制ISGF3形成导致干扰素诱导的IRF-7基因表达受损。

Impairment of interferon-induced IRF-7 gene expression due to inhibition of ISGF3 formation by trichostatin A.

作者信息

Génin Pierre, Morin Pierre, Civas Ahmet

机构信息

UPR 2228-CNRS, Laboratoire de Régulation Transcriptionnelle et Maladies Génétiques, UFR Biomédicale des Saints-Pères, Université Paris V, 75270 Paris Cedex 06, France.

出版信息

J Virol. 2003 Jun;77(12):7113-9. doi: 10.1128/jvi.77.12.7113-7119.2003.

DOI:10.1128/jvi.77.12.7113-7119.2003
PMID:12768031
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC156205/
Abstract

Two members of the signal transducer and activator of transcription family, STAT1 and STAT2, form, together with interferon regulatory factor 9 (IRF-9), the ISGF3 complex that activates the expression of the interferon-stimulated genes (ISG). The ISGF3 complex also participates in the virus-induced alpha/beta interferon (IFN-alpha/beta) gene amplification cascade by up-regulating IRF-7 gene expression. Here, we show that treatment of cells with trichostatin A (TSA), a deacetylase inhibitor, inhibits the virus-induced activation of IFN-alpha/beta promoters and dramatically reduces the ability of different ISG promoters to respond to IFN stimulation. Impairment of IFN-alpha/beta and ISG expression by TSA in infected cells is due to the blockage of interferon-stimulated ISGF3 complex formation, which leads to the abolition of IRF-7 gene expression. We also show that the TSA-dependent inhibition of ISGF3 is related to impaired nuclear accumulation of STAT2. Our data suggest that an acetylation/deacetylation mechanism participates in the regulation of cellular distribution and function of STAT2 in IFN-alpha/beta signaling.

摘要

信号转导与转录激活因子家族的两个成员,即信号转导与转录激活因子1(STAT1)和信号转导与转录激活因子2(STAT2),与干扰素调节因子9(IRF-9)一起形成ISGF3复合物,该复合物可激活干扰素刺激基因(ISG)的表达。ISGF3复合物还通过上调IRF-7基因表达参与病毒诱导的α/β干扰素(IFN-α/β)基因扩增级联反应。在此,我们表明,用脱乙酰酶抑制剂曲古抑菌素A(TSA)处理细胞,可抑制病毒诱导的IFN-α/β启动子激活,并显著降低不同ISG启动子对IFN刺激的反应能力。TSA对感染细胞中IFN-α/β和ISG表达的损害是由于干扰素刺激的ISGF3复合物形成受阻,这导致IRF-7基因表达的缺失。我们还表明,TSA对ISGF3的抑制作用与STAT2核内积累受损有关。我们的数据表明,乙酰化/去乙酰化机制参与了IFN-α/β信号传导中STAT2细胞分布和功能的调节。

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