Abstract
Proto-oncogene Akt plays essential roles in cell proliferation and tumorigenesis. Full activation of Akt is regulated by phosphorylation, ubiquitination, and acetylation. Here we report that SUMOylation of Akt is a novel mechanism for its activation. Systematically analyzing the role of lysine residues in Akt activation revealed that K276, which is located in a SUMOylation consensus motif, is essential for Akt activation. Ectopic or endogenous Akt1 could be modified by SUMOylation. RNA interference-mediated silencing of UBC9 reduced Akt SUMOylation, which was promoted by SUMO E3 ligase PIAS1 and reversed by the SUMO-specific protease SENP1. Although multiple sites on Akt could be SUMOylated, K276 was identified as a major SUMO acceptor site. K276R or E278A mutation reduced SUMOylation of Akt but had little effect on its ubiquitination. Strikingly, these mutations also completely abolished Akt kinase activity. In support of these results, we found that expression of PIAS1 and SUMO1 increased Akt activity, whereas expression of SENP1 reduced Akt1 activity. Interestingly, the cancer-derived mutant E17K in Akt1 that occurs in various cancers was more efficiently SUMOylated than wild-type Akt. Moreover, SUMOylation loss dramatically reduced Akt1 E17K-mediated cell proliferation, cell migration, and tumorigenesis. Collectively, our findings establish that Akt SUMOylation provides a novel regulatory mechanism for activating Akt function.
Highlights
Posttranslational modification (PTM) is essential for the proper functions of numerous eukaryotic proteins
Antibodies and plasmids Antibodies against hemagglutinin (HA) and GFP were obtained from Santa Cruz; Flag was from Sigma; Akt1, phospho-Akt, and phospho-Akt-substrate were from CST; UBC9, PIAS1, phospho-GSK3b, and GSK3a/b were from Epitomics and SENP1 was from Bethyl
This is consistent with recent report that K63 ubiquitination of this residue is essential for Akt kinase activity [15]
Summary
Posttranslational modification (PTM) is essential for the proper functions of numerous eukaryotic proteins. Lysine residue serves as the key acceptor site for PTMs including ubiquitination, acetylation, SUMOylation, and methylation [1,2,3]. Among the various lysine modifications, SUMOylation has emerged as an important PTM that plays essential roles in various biologic functions including cell growth, migration, and tumorigenesis [4,5,6]. SUMOylation is an enzymatic cascade reaction catalyzed by covalently conjugating small ubiquitin-related modifiers (SUMO) to an internal lysine residue in target proteins via its carboxyl-terminal glycine in the processed SUMO [4]. Attachment of SUMO to a protein may affect the protein activity, subcellular localization, and stability [4]. Accumulating evidence indicates that SUMOylation can target a wide variety of proteins including
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