Tistep process, which involves an activating enzyme E1 (SAE1 and SAE2), a conjugating enzyme E2 (Ubc9) and, in some cases, a ligating enzyme E3 [21?2]. SUMOylation is thought to modify the interactions in multiprotein complexes [23]. Beside its role as a covalent modifier, SUMO can bind non-covalently to SUMO-interacting motifs, which have been identified in many proteins [24], among which several are related to polyQ diseases such as androgen receptor, huntingtin, ataxin-1, and ataxin-7 [25?8]. SUMO and ubiquitin share a common three-dimensional structure, except that SUMO has an additional short amino terminal extension [29]. It has been reported that SUMO modification of some proteins on a lysineThe Effect of SUMOylation on Ataxin-residue blocks ubiquitination at the same site, resulting in an inhibition of protein degradation and an alteration of protein function [26,30]. In HD, SUMOylation of mutant huntingtin increases the stability of the protein and exacerbate neurodegeneration. In our previous study, SUMO-1 had been identified as a novel ataxin-3-interacting protein by yeast two-hybrid technology. Both co-immunoprecipitation and immunofluorescence staining results proved that ataxin-3 was a target for SUMOylation both in vitro and in vivo [31,32]. In order to reveal the exact role of SUMOylation in the pathogenesis of SCA3/MJD, here we report that the major SUMO-1 binding site was identified, which located on lysine 166 (K166) of the 18325633 mutant-type ataxin-3. SUMOylation did not influence the subcellular localization, ubiquitination or aggregates formation of mutant-type ataxin-3, but partially increased its stability and the apoptosis rate of the cells. Our findings are the first to indicate the effect of SUMOylation on the stability and cellular toxicity of mutant ataxin-3 and implicate the role of SUMOylation in SCA3/MJD pathogenesis.Results Ataxin-3 was modified by SUMO-1 on lysineFirstly, the potential SUMOylation motifs on ataxin-3 were predicted by software, “SUMOplotTM prediction” (www.abgent. com/doc/sumoplot). The result suggested at least three consensus SUMOylation sequences in ataxin-3, which were K8 in EKQE, K166 in VKGD and K206 in HKTD. Based on these outputs, we TKI-258 lactate manufacturer constructed three mutants of ataxin-3, ataxin-3K8R, ataxin-3K166R, and ataxin-3K206R, in which the lysine 8, lysine 166 or lysine 206 were all converted to arginine (R). As shown in Figure 1, slow migrating bands were observed using both ataxin-3K8R and ataxin-3K206R as binding substrates of SUMO-1 while no migration was observed when ataxin-3K166R was used. The results presented in Figure 1 clearly showed that only the conversion of lysine 166 to arginine abrogated the SUMOylation of ataxin-3, meaning lysine 166 was the SUMOylation site in ataxin-3.between SUMO-1 and ubiquitin for identical binding sites protects some proteins from degradation [33]. To determine whether SUMO-1 modification would affect the ubiquitination of ataxin-3, we transiently expressed GFP-ataxin-3 or GFP-ataxin3K166R in HEK293 cells and purchase Dinaciclib performed immunoprecipitation assays using anti-GFP antibodies. The ubiquitination of ataxin-3 and ataxin-3K166R was not significantly different, which suggested that SUMO-1 modification did not affect the ubiquitination of ataxin-3, and lysine 166 might not be the ubiquitination site (Figure 3A, 3B). Since SUMO modification may regulate the stability of proteins [33?4], we speculated that SUMO-1 modification might alter the stability of ataxin-3.Tistep process, which involves an activating enzyme E1 (SAE1 and SAE2), a conjugating enzyme E2 (Ubc9) and, in some cases, a ligating enzyme E3 [21?2]. SUMOylation is thought to modify the interactions in multiprotein complexes [23]. Beside its role as a covalent modifier, SUMO can bind non-covalently to SUMO-interacting motifs, which have been identified in many proteins [24], among which several are related to polyQ diseases such as androgen receptor, huntingtin, ataxin-1, and ataxin-7 [25?8]. SUMO and ubiquitin share a common three-dimensional structure, except that SUMO has an additional short amino terminal extension [29]. It has been reported that SUMO modification of some proteins on a lysineThe Effect of SUMOylation on Ataxin-residue blocks ubiquitination at the same site, resulting in an inhibition of protein degradation and an alteration of protein function [26,30]. In HD, SUMOylation of mutant huntingtin increases the stability of the protein and exacerbate neurodegeneration. In our previous study, SUMO-1 had been identified as a novel ataxin-3-interacting protein by yeast two-hybrid technology. Both co-immunoprecipitation and immunofluorescence staining results proved that ataxin-3 was a target for SUMOylation both in vitro and in vivo [31,32]. In order to reveal the exact role of SUMOylation in the pathogenesis of SCA3/MJD, here we report that the major SUMO-1 binding site was identified, which located on lysine 166 (K166) of the 18325633 mutant-type ataxin-3. SUMOylation did not influence the subcellular localization, ubiquitination or aggregates formation of mutant-type ataxin-3, but partially increased its stability and the apoptosis rate of the cells. Our findings are the first to indicate the effect of SUMOylation on the stability and cellular toxicity of mutant ataxin-3 and implicate the role of SUMOylation in SCA3/MJD pathogenesis.Results Ataxin-3 was modified by SUMO-1 on lysineFirstly, the potential SUMOylation motifs on ataxin-3 were predicted by software, “SUMOplotTM prediction” (www.abgent. com/doc/sumoplot). The result suggested at least three consensus SUMOylation sequences in ataxin-3, which were K8 in EKQE, K166 in VKGD and K206 in HKTD. Based on these outputs, we constructed three mutants of ataxin-3, ataxin-3K8R, ataxin-3K166R, and ataxin-3K206R, in which the lysine 8, lysine 166 or lysine 206 were all converted to arginine (R). As shown in Figure 1, slow migrating bands were observed using both ataxin-3K8R and ataxin-3K206R as binding substrates of SUMO-1 while no migration was observed when ataxin-3K166R was used. The results presented in Figure 1 clearly showed that only the conversion of lysine 166 to arginine abrogated the SUMOylation of ataxin-3, meaning lysine 166 was the SUMOylation site in ataxin-3.between SUMO-1 and ubiquitin for identical binding sites protects some proteins from degradation [33]. To determine whether SUMO-1 modification would affect the ubiquitination of ataxin-3, we transiently expressed GFP-ataxin-3 or GFP-ataxin3K166R in HEK293 cells and performed immunoprecipitation assays using anti-GFP antibodies. The ubiquitination of ataxin-3 and ataxin-3K166R was not significantly different, which suggested that SUMO-1 modification did not affect the ubiquitination of ataxin-3, and lysine 166 might not be the ubiquitination site (Figure 3A, 3B). Since SUMO modification may regulate the stability of proteins [33?4], we speculated that SUMO-1 modification might alter the stability of ataxin-3.