Functional Genomics Identify Distinct and Overlapping Genes Mediating Resistance to Different Classes of Heterobifunctional Degraders of Oncoproteins

Ryosuke Shirasaki; Geoffrey M. Matthews; Sara Gandolfi; Ricardo De Matos Simoes; Dennis L. Buckley; Joseline Raja; Quinlan Sievers; Johanna B. Brüggenthies; Olga Dashevsky; Haley Poarch; Huihui Tang; Megan Bariteau; Michal Sheffer; Yiguo Hu; Sondra L. Downey-Kopyscinski; Paul J. Hengeveld; Brian Glassner; Eugen Dhimolea; Christopher J. Ott; Tinghu Zhang; Nicholas Kwiatkowski; Jacob P. Laubach; Robert Schlossman; Paul G. Richardson; Aedín C. Culhane; Richard W.J. Groen; Eric S. Fischer; Francisca Vázquez; Aviad Tsherniak; William C. Hahn; Joan Levy; Daniel Auclair; Jonathan D. Licht; Jonathan J. Keats; Lawrence Boise; Benjamin L. Ebert; James E. Bradner; Nathanael S. Gray; Constantine S. Mitsiades

doi:10.1016/j.celrep.2020.108532

Functional Genomics Identify Distinct and Overlapping Genes Mediating Resistance to Different Classes of Heterobifunctional Degraders of Oncoproteins

Ryosuke Shirasaki(Broad Institute), Geoffrey M. Matthews(Broad Institute), Sara Gandolfi(Broad Institute), Ricardo De Matos Simoes(Broad Institute), Dennis L. Buckley(Broad Institute), Joseline Raja(Broad Institute), Quinlan Sievers(Broad Institute), Johanna B. Brüggenthies(Broad Institute), Olga Dashevsky(Broad Institute), Haley Poarch(Dana-Farber Cancer Institute), Huihui Tang(Broad Institute), Megan Bariteau(Broad Institute), Michal Sheffer(Broad Institute), Yiguo Hu(Harvard University), Sondra L. Downey-Kopyscinski(Broad Institute), Paul J. Hengeveld(Harvard University), Brian Glassner(Broad Institute), Eugen Dhimolea(Broad Institute), Christopher J. Ott(Harvard University), Tinghu Zhang(Harvard University), Nicholas Kwiatkowski(Harvard University), Jacob P. Laubach(Harvard University), Robert Schlossman(Harvard University), Paul G. Richardson(Harvard University), Aedín C. Culhane(Dana-Farber Cancer Institute), Richard W.J. Groen(Cancer Center Amsterdam), Eric S. Fischer(Harvard University), Francisca Vázquez(Broad Institute), Aviad Tsherniak(Broad Institute), William C. Hahn(Broad Institute), Joan Levy(Multiple Myeloma Research Foundation), Daniel Auclair(Multiple Myeloma Research Foundation), Jonathan D. Licht(University of Florida Health), Jonathan J. Keats(Translational Genomics Research Institute), Lawrence Boise(Emory University), Benjamin L. Ebert(Broad Institute), James E. Bradner(Broad Institute), Nathanael S. Gray(Harvard University), Constantine S. Mitsiades(Broad Institute)

Cell Reports

January 1, 2021

10.1016/j.celrep.2020.108532

Cited by 113Open Access

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Abstract

Heterobifunctional proteolysis-targeting chimeric compounds leverage the activity of E3 ligases to induce degradation of target oncoproteins and exhibit potent preclinical antitumor activity. To dissect the mechanisms regulating tumor cell sensitivity to different classes of pharmacological "degraders" of oncoproteins, we performed genome-scale CRISPR-Cas9-based gene editing studies. We observed that myeloma cell resistance to degraders of different targets (BET bromodomain proteins, CDK9) and operating through CRBN (degronimids) or VHL is primarily mediated by prevention of, rather than adaptation to, breakdown of the target oncoprotein; and this involves loss of function of the cognate E3 ligase or interactors/regulators of the respective cullin-RING ligase (CRL) complex. The substantial gene-level differences for resistance mechanisms to CRBN- versus VHL-based degraders explains mechanistically the lack of cross-resistance with sequential administration of these two degrader classes. Development of degraders leveraging more diverse E3 ligases/CRLs may facilitate sequential/alternating versus combined uses of these agents toward potentially delaying or preventing resistance.

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