Abstract
Protein ubiquitination regulates numerous cellular functions in eukaryotes. The prevailing view about the role of RING or U-box ubiquitin ligases (E3) is to provide precise positioning between the attached substrate and the ubiquitin-conjugating enzyme (E2). However, the mechanism of ubiquitin transfer remains obscure. Using the carboxyl terminus of Hsc70-interacting protein as a model E3, we show herein that although U-box binding is required, it is not sufficient to trigger the transfer of ubiquitin onto target substrates. Furthermore, additional regions of the E3 protein that have no direct contact with E2 play critical roles in mediating ubiquitin transfer from E2 to attached substrates. By combining computational structure modeling and protein engineering approaches, we uncovered a conformational flexibility of E3 that is required for substrate ubiquitination. Using an engineered version of the carboxyl terminus of Hsc70-interacting protein ubiquitin ligase as a research tool, we demonstrate a striking flexibility of ubiquitin conjugation that does not affect substrate specificity. Our results not only reveal conformational changes of E3 during ubiquitin transfer but also provide a promising approach to custom-made E3 for targeted proteolysis.
Highlights
Protein modification by ubiquitin and ubiquitin-like proteins is a common mechanism through which numerous cellular pathways are regulated [1]
Using an engineered version of the carboxyl terminus of Hsc70-interacting protein ubiquitin ligase as a research tool, we demonstrate a striking flexibility of ubiquitin conjugation that does not affect substrate specificity
RING and U-box E3s have been suggested to function as adaptors that position the substrate in close proximity to the E2-ubiquitin thioester (E2-Ub) [5]
Summary
Protein modification by ubiquitin and ubiquitin-like proteins is a common mechanism through which numerous cellular pathways are regulated [1]. Using the carboxyl terminus of Hsc70-interacting protein as a model E3, we show that U-box binding is required, it is not sufficient to trigger the transfer of ubiquitin onto target substrates. Our To evaluate CHIP-mediated ubiquitin conjugation, we perresults provide evidence for the importance of structural formed a reconstituted in vitro ubiquitination assay using flexibility in E3 ligases, which we propose is of general UbcH5 as E2 and Hsp70 as the substrate of CHIP.
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