Residues within IE1 region 410–445 are required for phosphorylation of STAT1 and up-regulation of IFNγ-responsive genes.

<p>(A) TetR cells without (w/o) or with inducible expression of the indicated HA-tagged wild-type or mutant IE1 proteins were treated with dox for 72 h. Whole cell protein extracts were prepared and analyzed by immunoblotting for IE1 (HA tag), pSTAT1 (Y701), pSTAT1 (S727), total STAT1 and GAPDH. (B) TetR cells without (w/o) or with inducible expression of the indicated HA-tagged wild-type or mutant IE1 proteins were treated with dox for 72 h. Relative mRNA expression levels were determined by RT-qPCR with primers specific for the STAT1 target genes CXCL10 and CXCL11. Results were normalized to TUBB, and means and standard deviations of two biological and two technical replicates are shown in comparison to IE1-negative TetR cells (set to 1).</p

siRNAs used in this study.

<p>siRNAs used in this study.</p

Residues within IE1 region 410–445 are required for targeting of STAT3 and down-regulation of STAT3-responsive genes.

<p>(A) TetR cells without (w/o) or with inducible expression of the indicated HA-IE1 proteins were treated with dox for 48 h. During the final 24 h of dox treatment, cells were kept in medium with 0.5% FBS. Subcellular localization of endogenous STAT3α in IE1 expressing cells was analyzed by indirect immunofluorescence microscopy. Samples were simultaneously reacted with a rabbit monoclonal antibody to STAT3α and a mouse monoclonal antibody to HA-tagged IE1, followed by incubation with a rabbit-specific Alexa Fluor 594 conjugate and a mouse-specific Alexa Fluor 488 conjugate. Host cell nuclei were visualized by 4',6-diamidino-2-phenylindole (DAPI) staining. Additionally, merge images of STAT3α, IE1 and DAPI signals are presented. (B) The percentage of cells with i) predominantly nuclear STAT3α staining (N>C), ii) equally strong nuclear and cytoplasmic STAT3α staining (N = C) and iii) predominantly cytoplasmic STAT3α staining (C>N) was determined for 100 randomly selected cells per sample described in (A). (C) TetR cells without or with inducible expression of HA-tagged wild-type IE1 or IE1dl410-420 were treated with dox for 72 h and with solvent (w/o) or IL6 plus IL6R (IL6/Rα) for 30 min. Cytoplasmic and nuclear extracts were prepared and analyzed by immunoblotting for histone H2B, STAT2, STAT3α and IE1. (D) TetR cells without (w/o) or with inducible expression of HA-tagged wild-type IE1 or IE1dl410-420 were treated with dox for 72 h. Whole cell extracts were prepared and used for immunoprecipitations (IPs) with anti-HA-agarose. Samples of lysates and immunoprecipitates were analyzed by immunoblotting for IE1 and STAT3α. (E) TetR cells without (w/o) or with inducible expression of HA-tagged wild-type IE1 or IE1dl410-420 were treated with dox for 72 h and with IL6 plus IL6R for 30 min. Samples were subjected to ChIP with rabbit polyclonal antibodies to STAT3 or normal rabbit IgG and primers specific for sequences in the SOCS3 promoter or coding region. The percentage of output versus input DNA is presented as the difference between STAT3 and normal IgG ChIPs. Means and standard deviations of two biological and two technical replicates are shown. (F) TetR cells without (w/o) or with inducible expression of the indicated HA-tagged wild-type or mutant IE1 proteins were treated with dox for 72 h. Relative mRNA expression levels were determined by RT-qPCR with primers specific for the STAT3 target genes CXCL12 and SOCS3. Results were normalized to TUBB, and means and standard deviations of two biological and two technical replicates are shown in comparison to IE1-negative TetR cells (set to 1).</p

Ingenuity analysis¹ of human genes repressed by IE1 and activated by STAT3, IL6 or OSM.

<p>Ingenuity analysis<a href="http://www.plospathogens.org/article/info:doi/10.1371/journal.ppat.1005748#t001fn001" target="_blank">¹</a> of human genes repressed by IE1 and activated by STAT3, IL6 or OSM.</p

IE1 switches an IL6-type to an IFNγ-like response.

<p>(A) TetR (w/o) or TetR-IE1 (IE1) cells were treated with dox for 72 h and with IL6 plus IL6R (IL6/Rα) for the indicated times. Whole cell protein extracts were prepared and analyzed by immunoblotting for IE1, total STAT1, pSTAT1 (Y701), total STAT3α, pSTAT3 (Y705) and GAPDH. (B) TetR (w/o) or TetR-IE1 cells expressing HA-tagged wild-type IE1 or IE1dl410-420 were treated with dox for 72 h and with solvent, IFNα, IFNγ or IL6 plus IL6R (IL6/Rα) for 24 h. Whole cell protein extracts were analyzed by immunoblotting for IE1, total STAT1, pSTAT1 (Y701) and GAPDH. (C) TetR (w/o) or TetR-IE1 cells expressing HA-tagged wild-type IE1 or IE1dl410-420 were treated with dox for 72 h and with solvent, IFNα, IFNγ or IL6 plus IL6R (IL6/Rα) for 24 h. Relative mRNA levels were determined by RT-qPCR for the type I IFN/STAT2 target genes OAS1 and EIF2AK2 (protein kinase R) (left panels), the type II IFN/STAT1 target genes CXCL10 and CXCL11 (middle panels) and the IL6/STAT3 target genes CXCL12 and SOCS3 (right panels). Results were normalized to TUBB, and means and standard deviations of biological triplicates are shown in comparison to solvent-treated TetR cells (set to 1).</p

Systematic deletion analysis of C-terminal IE1 residues 373–491.

<p>(A) Schematic overview of amino acids 373–491 in the tested wild-type and mutant IE1 proteins. Positions of the low-complexity motifs (acidic domains AD1-3 and serine/proline-rich region S/P), the SUMOylation site (K450) and the chromatin tethering domain (CTD) are shown. (B) TetR cells without (w/o) or with inducible expression of the indicated HA-tagged wild-type or mutant IE1 proteins were treated with dox for 72 h. Whole cell protein extracts were prepared and analyzed by immunoblotting for IE1 (HA tag) and GAPDH. (C) TetR cells without (w/o) or with inducible expression of the indicated HA-tagged wild-type or mutant IE1 proteins were treated with dox for 72 h. Whole cell extracts prepared in the presence of N-ethylmaleimide were used for immunoprecipitation with anti-HA-agarose, and samples were analyzed by immunoblotting for IE1 (HA tag) and SUMO1.</p

IE1 rewires IL6 signaling to STAT1 activation during hCMV infection.

<p>(A) MRC-5 cells were infected with TBwt, TBIE1dl410-420 or TBrvIE1dl410-420 at low input multiplicity (0.1 PFU/cell) in the absence (w/o) or presence of exogenous IFNβ. Culture media were replaced every 24 h, and viral replication was assessed by qPCR-based relative quantification of hCMV DNA from culture supernatants at the indicated times post infection with primers specific for the viral UL86 sequence. Data are presented as means and standard deviations from three independent infections. (B) MRC-5 cells were mock-infected or infected with TBwt, TBIE1dl410-420 or TBrvIE1dl410-420 at a high input multiplicity (5 PFU/cell). At 6 h post infection, cultures were treated with solvent or IL6 plus IL6R (IL6/Rα). At 24 h post infection, whole cell protein extracts were prepared and analyzed by immunoblotting for IE1/IE2, total STAT1, pSTAT1 (Y701) and GAPDH. (C) MRC-5 cells were mock-infected or infected with TBwt, TBIE1dl410-420 or TBrvIE1dl410-420 at a high input multiplicity (5 PFU/cell). At 6 h post infection, cultures were treated with solvent or IL6 plus IL6R (IL6/Rα). At 24 h post infection, relative mRNA levels were determined by RT-qPCR for the STAT1 target genes CXCL9, CXCL10, CXCL11 and IDO. Results were normalized to TUBB, and means and standard deviations of biological triplicates are shown in comparison to solvent-treated mock-infected cells (set to 1). (D) STAT2-deficient human skin fibroblasts were infected with gTBwt, gTBIE1dl410-420 or gTBrvIE1dl410-420 at low input multiplicity (0.1 PFU/cell) in the absence (w/o) or presence of IL6 plus IL6Rα (IL6/Rα). Every 48 h, half of the culture media was replaced and viral replication was assessed at day 6 post infection by fluorescence microscopy. (E) STAT2-deficient human skin fibroblasts were infected with gTBwt, gTBIE1dl410-420 or gTBrvIE1dl410-420 at low input multiplicity (0.1 PFU/cell) in the absence (w/o) or presence of IL6 plus IL6Rα (IL6/Rα). Every 48 h, half of the culture media was replaced and viral replication was assessed by qPCR-based relative quantification of hCMV DNA from culture supernatants with primers specific for the viral UL86 sequence. Data are presented as means and standard deviations from two biological and two technical replicates.</p

Knock-down of STAT3 recapitulates, while knock-down of IL6ST or JAK1 disrupts IE1-mediated induction of IFNγ-stimulated genes.

<p>(A) TetR (w/o) or TetR-IE1 (IE1) cells were transfected with a control siRNA or two different siRNAs specific for STAT3. From 48 h post siRNA transfection, cells were treated with dox for 72 h. Relative mRNA levels were determined by RT-qPCR for STAT3, IE1 and the STAT1 target genes CXCL10 and GBP4. Results were normalized to TUBB, and means and standard deviations of two biological and two technical replicates are shown in comparison to control siRNA-transfected TetR-IE1 cells (set to 1). (B) TetR (w/o) or TetR-IE1 (IE1) cells were transfected with a control siRNA or two different siRNAs specific for IL6ST. From 48 h post siRNA transfection, cells were treated with dox for 72 h. Relative mRNA levels were determined by RT-qPCR for IL6ST, IE1, CXCL10 and GBP4. Results were normalized to TUBB, and means and standard deviations of two biological and two technical replicates are shown in comparison to control siRNA-transfected TetR-IE1 cells (set to 1). (C). TetR (w/o) or TetR-IE1 (IE1) cells were transfected with a control siRNA or two different siRNAs specific for JAK1. From 48 h post siRNA transfection, cells were treated with dox for 72 h. Relative mRNA levels were determined by RT-qPCR for JAK1, IE1, CXCL10 and GBP4. Results were normalized to TUBB, and means and standard deviations of two biological and two technical replicates are shown in comparison to control siRNA-transfected TetR-IE1 cells (set to 1).</p

IE1 is both an activator and a repressor of human gene expression.

<p>Relative proportions and absolute counts (in brackets) of unique probe sets significantly up- or down-regulated in GeneChip analyses following induction of IE1 for 24 h, 72 h or 24 h and 72 h combined (total). The numbers are based on <a href="http://www.plospathogens.org/article/info:doi/10.1371/journal.ppat.1005748#ppat.1005748.s001" target="_blank">S1 Data</a>.</p

Oligonucleotides used in this study.

<p>Oligonucleotides used in this study.</p