Journal
EMBO REPORTS
Volume 19, Issue 11, Pages -Publisher
WILEY
DOI: 10.15252/embr.201846117
Keywords
acetylation; SIRT1; SUMO chains; SUMO-targeted ubiquitin ligase
Categories
Funding
- DFG collaborative research centers [SFB815, SFB1177]
- DFG [MU-1764/4]
- Fritz Thyssen Stiftung
- LOEWE Ub-Net
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Post-translational modifications by ubiquitin-related SUMO modifiers regulate cellular signaling networks and protein homeostasis. While SUMO1 is mainly conjugated to proteins as a monomer, SUMO2/3 can form polymeric chains. Poly-SUMOylation is best understood in the SUMO-targeted ubiquitin ligase (StUbL) pathway, where chains prime proteins for subsequent ubiquitylation by StUbLs. SUMO chains typically form in response to genotoxic or proteotoxic stress and are preferentially linked via lysine 11 of SUMO2/3. Here, we report that K11 of SUMO2/3 undergoes reversible acetylation with SIRT1 being the K11 deacetylase. In a purified in vitro system, acetylation of SUMO2/3 impairs chain formation and restricts chain length. In a cellular context, however, K11 acetyl-mimicking SUMO2 does not affect the StUbL pathway, indicating that in cells non-canonical chains are more prevalent. MS-based SUMO proteomics indeed identified non-canonical chain types under basal and stress conditions. Importantly, mimicking K11 acetylation alters chain architecture by favoring K5- and K35-linked chains, while inhibiting K7 and K21 linkages. These data provide insight into SUMO chain signaling and point to a role of K11 acetylation as a modulator of SUMO2/3 chains.
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