s SENP1 deconjugates SUMO 1 from STAT1 and enhances STAT1 mediated gene selleck chemicals expression The covalent modification of proteins by SUMO 1 is known to be a reversible process. We wanted to confirm the effect of sumoylation of STAT1 in cells by analyzing whether STAT1 is a substrate for SUMO pro tease SENP1. For this, STAT1, SUMO 1 and SENP1 Flag or catalytically inactive SENP1 C603S Flag were transfected into Cos 7 cells and equal amounts of pro tein was immunoprecipitated with anti STAT1 antibody and immunoblotted with anti STAT1 and anti SUMO 1 antibodies. As shown in Figure 1A, co transfection of SENP1 WT completely abolished the slower migrating STAT1 SUMO 1 band indicating that sumoylation of STAT1 is reversible and SENP1 can act as a Inhibitors,Modulators,Libraries SUMO specific isopeptidase for STAT1.
The identification of STAT1 as a substrate for SENP1 prompted us to investigate whether SENP1 mediated desumoylation affects the transcriptional activity of STAT1. For this purpose, we analysed the activity of STAT1 responsive Inhibitors,Modulators,Libraries GAS luciferace reporter in HeLa cells transfected with different Inhibitors,Modulators,Libraries concentrations of SENP1 WT or SENP1 C603S mutant. As shown in Figure 1B, over expression of SENP1 significantly increased the tran scriptional activity of endogenous STAT1. In contrast, overexpression of catalytically inactive SENP1 C603S resulted in a dose dependent decrease in GAS luciferase activity, most probably by blocking the interaction of endogenous SENP1 with STAT1, leading to increased level of SUMO modified STAT1 in the cells. This effect is also seen in Figure 1A, where STAT1 sumoylation is significantly increased when SENP1 C603S is co transfected into the Cos 7 cells.
Collectively, these results indicate Inhibitors,Modulators,Libraries that desumoylation of STAT1 enhances its transcriptional activity. These results are in line with previously reported Anacetrapib results that sumoylation deficient STAT1 mutants display higher transcriptional activity at STAT1 target gene promoters. Molecular model of the SUMO conjugated STAT1 dimer IFN induced activation of STAT1 transcription factor requires phosphorylation of Tyr701 leading to its rapid homodimerization followed by translocation to the nucleus and binding to the target gene promoters. To obtain further insight on the mechanisms and conse quences of SUMO conjugation to STAT1, we modeled the SUMO moiety and analysed its orientation in STAT1 dimer using information from the published structure of Tyr701 phosphorylated STAT1 homodimer bound to DNA.
The interaction between STAT1 monomers is formed between SH2 domain and phosphorylated tyro sine 701 of an adjacent monomer, so that the phosphate group is recognized by the strictly conserved Arg602 residue that rises up from the interior of the SH2 domain.Analysis of the SUMO conjugation site demonstrated that the side chains of Lys703 of both monomers formed a projection on selleck chem the same orientation with DNA, and formed a suitable site for covalent isopeptide bond between STAT1 and SUMO. Monomeric STAT1 molecules have a ten dency to