cGlucocorticoid receptor (GR) activity is modulated by posttranslational modifications, including phosphorylation, ubiquitination, and SUMOylation. The GR has three SUMOylation sites: lysine 297 (K297) and K313 in the N-terminal domain (NTD) and K721 within the ligand-binding domain. SUMOylation of the NTD sites mediates the negative effect of the synergy control motifs of GR on promoters with closely spaced GR binding sites. There is scarce evidence on the role of SUMO conjugation to K721 and its impact on GR transcriptional activity. We have previously shown that RSUME (RWD-containing SUMOylation enhancer) increases protein SUMOylation. We now demonstrate that RSUME interacts with the GR and increases its SUMOylation. RSUME regulates GR transcriptional activity and the expression of its endogenous target genes, FKBP51 and S100P. RSUME uncovers a positive role for the third SUMOylation site, K721, on GR-mediated transcription, demonstrating that GR SUMOylation acts positively in the presence of a SUMOylation enhancer. Both mutation of K721 and small interfering RNA-mediated RSUME knockdown diminish GRIP1 coactivator activity. RSUME, whose expression is induced under stress conditions, is a key factor in heat shock-induced GR SUMOylation. These results show that inhibitory and stimulatory SUMO sites are present in the GR and at higher SUMOylation levels the stimulatory one becomes dominant. G lucocorticoid (GC) actions are mediated by the glucocorticoid receptor (GR), a ligand-activated transcription factor and member of the nuclear receptor (NR) superfamily. GR plays an important role in gene transcription (1), regulating processes such as inflammation, glucose and lipid metabolism, stress response, development, the cell cycle, and apoptosis (2-4). GR has a modular structure consisting of three major functional domains, the N-terminal domain (NTD), the central DNA-binding domain (DBD), and the C-terminal ligand-binding domain (LBD). Upon ligand binding, GR dissociates from multichaperone complexes, dimerizes, and translocates into the nucleus (5). In addition to its role in ligand recognition, the LBD contains a ligand-dependent activation function (AF-2) that is tightly regulated by hormone binding and several coactivators interacting with this domain (6). GR-mediated transcriptional activity is regulated not only by its binding to GC response elements (GREs) and the balance between coactivators and corepressors but also by posttranslational modifications, which include phosphorylation, ubiquitination, and SUMOylation (7-12).The SUMO conjugation pathway has similarities to the ubiquitination process but uses a different set of enzymes involved in processing, attachment, and removal of SUMO (13,14). First, SUMO is activated in an ATP-dependent manner by the heterodimeric E1-activating enzyme SAE1/2. Activated SUMO is then transferred to the E2-conjugating enzyme Ubc9 and is conjugated to specific lysine residues in substrate proteins. Efficient SUMO conjugation in vivo further requires the action of specific SU...
