Litcius/Paper detail

A virus-induced conformational switch of STAT1-STAT2 dimers boosts antiviral defenses

Yuxin Wang, Qiaoling Song, Wei Huang, Yuxi Lin, Xin Wang, Chenyao Wang, Belinda Willard, Chenyang Zhao, Nan Jing, Elise Holvey-Bates, Zhuoya Wang, Derek J. Taylor, Jinbo Yang, George R. Stark

2020Cell Research48 citationsDOIOpen Access PDF

Abstract

Type I interferons (IFN-I) protect us from viral infections. Signal transducer and activator of transcription 2 (STAT2) is a key component of interferon-stimulated gene factor 3 (ISGF3), which drives gene expression in response to IFN-I. Using electron microscopy, we found that, in naive cells, U-STAT2, lacking the activating tyrosine phosphorylation, forms a heterodimer with U-STAT1 in an inactive, anti-parallel conformation. A novel phosphorylation of STAT2 on T404 promotes IFN-I signaling by disrupting the U-STAT1-U-STAT2 dimer, facilitating the tyrosine phosphorylation of STATs 1 and 2 and enhancing the DNA-binding ability of ISGF3. IKK-ε, activated by virus infection, phosphorylates T404 directly. Mice with a T-A mutation at the corresponding residue (T403) are highly susceptible to virus infections. We conclude that T404 phosphorylation drives a critical conformational switch that, by boosting the response to IFN-I in infected cells, enables a swift and efficient antiviral defense.

Topics & Concepts

STAT2STAT1PhosphorylationBiologySTAT proteinTyrosine phosphorylationInterferonTyrosineVirologyTranscription factorSignal transductionCell biologyVirusSTAT3GeneMolecular biologyBiochemistryinterferon and immune responsesCytokine Signaling Pathways and InteractionsRNA regulation and disease