ISGF3 and STAT2/IRF9 direct basal and IFN-induced transcription through genome-wide binding of phosphorylated and unphosphorylated complexes to commonly ISRE containing ISGs? [ChIP-Seq]

To further understand the role of phosphorylation in ISGF3- and STAT2/IRF9-mediated constitutive and long-term IFN-I-stimulated transcriptional responses, we performed RNA-Seq and ChIP-Seq, in combination with phosphorylation inhibition and anti-viral experiments. First, we identified a group of ISRE-containing ISGs that were commonly regulated in IFNa treated WT and STAT1-KO cells. Thus, in 2fTGH and Huh7.5 WT cells IFNa-inducible transcription and anti-viral activity relied on the recruitment of the ISGF3 components STAT1, STAT2 and IRF9 in a phosphorylation- and time-dependent manner. Likewise, in ST2-U3C and Huh-STAT1KO cells lacking STAT1, ISG expression correlated with DNA-binding of phosphorylated STAT2/IRF9. This pointed to a dominant role of classical ISGF3 and STAT2/IRF9, and not U-ISGF3 or U-STAT2/IRF9, in the regulation of early and prolonged ISG expression and viral protection, in WT and STAT1-KO cells. In addition, comparative experiments in U3C (STAT1-KO) cells overexpressing all ISGF3 components (ST1-ST2-IRF9-U3C), revealed a threshold-dependent role of U-ISFG3, and potentially U-STAT2/IRF9, in the regulation of constitutive and possibly long-term IFNa-treated ISG expression and anti-viral activity. Overall design: Chromatin immunoprecipitation DNA-sequencing (ChIP-seq) for 2fTGH, ST2-U3C, Huh7.5, and Huh STAT1KO cells treated with IFN alpha