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鉴定 STAT2 丝氨酸 287 为 I 型干扰素诱导的细胞反应中的一个新的调节性磷酸化位点。

Identification of STAT2 serine 287 as a novel regulatory phosphorylation site in type I interferon-induced cellular responses.

机构信息

Department of Biochemistry, Temple University School of Medicine, Philadelphia, Pennsylvania 19140, USA.

出版信息

J Biol Chem. 2013 Jan 4;288(1):747-58. doi: 10.1074/jbc.M112.402529. Epub 2012 Nov 8.

DOI:10.1074/jbc.M112.402529
PMID:23139419
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3537073/
Abstract

STAT2 is a positive modulator of the transcriptional response to type I interferons (IFNs). STAT2 acquires transcriptional function by becoming tyrosine phosphorylated and imported to the nucleus following type I IFN receptor activation. Although most STAT proteins become dually phosphorylated on specific tyrosine and serine residues to acquire full transcriptional activity, no serine phosphorylation site in STAT2 has been reported. To find novel phosphorylation sites, mass spectrometry of immunoprecipitated STAT2 was used to identify several phosphorylated residues. Of these, substitution of serine 287 with alanine (S287A) generated a gain-of-function mutant that enhanced the biological effects of IFN-α. S287A-STAT2 increased cell growth inhibition, prolonged protection against vesicular stomatitis virus infection and enhanced transcriptional responses following exposure of cells to IFN-α. In contrast, a phosphomimetic STAT2 mutant (S287D) produced a loss-of-function protein that weakly activated IFN-induced ISGs. Our mechanistic studies suggest that S287A-STAT2 likely mediates its gain-of-function effects by prolonging STAT2/STAT1 dimer activation and retaining it in transcriptionally active complexes with chromatin. Altogether, we have uncovered that in response to type I IFN, STAT2 is serine phosphorylated in the coiled-coil domain that when phosphorylated can negatively regulate the biological activities of type I IFNs.

摘要

STAT2 是 I 型干扰素(IFNs)转录反应的正向调节剂。STAT2 在 I 型 IFN 受体激活后通过酪氨酸磷酸化并被导入细胞核来获得转录功能。虽然大多数 STAT 蛋白在特定的酪氨酸和丝氨酸残基上发生双重磷酸化以获得完全的转录活性,但 STAT2 中没有报道丝氨酸磷酸化位点。为了寻找新的磷酸化位点,使用免疫沉淀 STAT2 的质谱法鉴定了几个磷酸化残基。在这些残基中,用丙氨酸(S287A)取代丝氨酸 287 会产生一种获得功能的突变体,从而增强 IFN-α 的生物学效应。S287A-STAT2 增强了细胞生长抑制、延长了对水疱性口炎病毒感染的保护作用,并增强了细胞暴露于 IFN-α 后的转录反应。相比之下,磷酸化模拟 STAT2 突变体(S287D)产生了一种功能丧失的蛋白,其弱激活 IFN 诱导的 ISGs。我们的机制研究表明,S287A-STAT2 可能通过延长 STAT2/STAT1 二聚体的激活并使其与染色质上的转录活性复合物保持在一起,从而介导其获得功能的效应。总之,我们已经发现,在 I 型 IFN 反应中,STAT2 在卷曲螺旋结构域中发生丝氨酸磷酸化,当磷酸化时,它可以负调控 I 型 IFNs 的生物学活性。

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