Disrupt Ubiquitination

The ubiquitin–proteasome system (UPS) is a highly regulated protein disposal process critical to cell survival. Inhibiting the pathway induces proteotoxic stress and can be an effective cancer treatment.

The therapeutic window observed upon proteasomal blockade has motivated multiple UPS-targeting strategies, including preventing ubiquitination altogether. E1 initiates the cascade by transferring ubiquitin to E2 enzymes. A small molecule that engages the E1 ATP-binding site and derivatizes ubiquitin disrupts enzymatic activity and kills cancer cells. However, binding-site mutations cause resistance, motivating alternative approaches to block this promising target.

Researchers at the Dana-Farber Cancer Institute have identified an interaction between the E2 N-terminal alpha-1 helix and a pocket within the E1 ubiquitin-fold domain as a potentially druggable site. Stapled peptides modeled after the E2 alpha-1 helix bound to the E1 groove, induced a consequential conformational change and inhibited E1 ubiquitin thiotransfer, disrupting E2 ubiquitin charging and ubiquitination of cellular proteins.

Thus, they provide a blueprint for a distinct E1-targeting strategy to treat cancer.

Targeting a helix-in-groove interaction between E1 and E2 blocks ubiquitin transfer
Ann M. Cathcart, Gregory H. Bird, Thomas E. Wales, Henry D. Herce, Edward P. Harvey, Zachary J. Hauseman, Catherine E. Newman, Utsarga Adhikary, Michelle S. Prew, Tun Oo, Susan Lee, John R. Engen & Loren D. Walensky
Cathcart, A.M., Bird, G.H., Wales, T.E. et al. Targeting a helix-in-groove interaction between E1 and E2 blocks ubiquitin transfer. Nat Chem Biol (2020). https://doi.org/10.1038/s41589-020-0625-7

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