Computationally designed high specificity inhibitors delineate the roles of BCL2 family proteins in cancer

Berger, S; Procko, E; Margineantu, D; Lee, Erinna; Shen, BW; Zelter, A; Silva, D-A; Chawla, K; Gamier, J-M; Johnson, R; MacCoss, MJ; Lessene, G; Davis, TN; Stayton, PS; Stoddard, BL; Fairlie, Walter; Hockenbery, DM; Baker, D

doi:10.26181/22003733.v1

Computationally designed high specificity inhibitors delineate the roles of BCL2 family proteins in cancer

journal contribution

posted on 2023-02-03, 05:23 authored by S Berger, E Procko, D Margineantu, Erinna LeeErinna Lee, BW Shen, A Zelter, D-A Silva, K Chawla, J-M Gamier, R Johnson, MJ MacCoss, G Lessene, TN Davis, PS Stayton, BL Stoddard, Walter FairlieWalter Fairlie, DM Hockenbery, D Baker

Many cancers overexpress one or more of the six human pro-survival BCL2 family proteins to evade apoptosis. To determine which BCL2 protein or proteins block apoptosis in different cancers, we computationally designed three-helix bundle protein inhibitors specific for each BCL2 pro-survival protein. Following in vitro optimization, each inhibitor binds its target with high picomolar to low nanomolar affinity and at least 300-fold specificity. Expression of the designed inhibitors in human cancer cell lines revealed unique dependencies on BCL2 proteins for survival which could not be inferred from other BCL2 profiling methods. Our results show that designed inhibitors can be generated for each member of a closely-knit protein family to probe the importance of specific protein-protein interactions in complex biological processes.

History

Publication Date

2016-11-01

Journal

eLife

Volume

5

Article Number

e20352

Pagination

31p.

Publisher

eLife Sciences Publications

ISSN

2050-084X

Rights Statement

© Berger et al. This article is distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use and redistribution provided that the original author and source are credited.