Induced protein degradation for therapeutics: past, present, and future
Hojong Yoon, … , Yen-Der Li, Benjamin L. Ebert
Hojong Yoon, … , Yen-Der Li, Benjamin L. Ebert
Published January 2, 2024
Citation Information: J Clin Invest. 2024;134(1):e175265. https://doi.org/10.1172/JCI175265.
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Induced protein degradation for therapeutics: past, present, and future

Abstract

The concept of induced protein degradation by small molecules has emerged as a promising therapeutic strategy that is particularly effective in targeting proteins previously considered “undruggable.” Thalidomide analogs, employed in the treatment of multiple myeloma, stand as prime examples. These compounds serve as molecular glues, redirecting the CRBN E3 ubiquitin ligase to degrade myeloma-dependency factors, IKZF1 and IKZF3. The clinical success of thalidomide analogs demonstrates the therapeutic potential of induced protein degradation. Beyond molecular glue degraders, several additional modalities to trigger protein degradation have been developed and are currently under clinical evaluation. These include heterobifunctional degraders, polymerization-induced degradation, ligand-dependent degradation of nuclear hormone receptors, disruption of protein interactions, and various other strategies. In this Review, we will provide a concise overview of various degradation modalities, their clinical applications, and potential future directions in the field of protein degradation.

Authors

Hojong Yoon, Justine C. Rutter, Yen-Der Li, Benjamin L. Ebert

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Figure 3

Modalities of induced protein degradation.

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Modalities of induced protein degradation. Induced protein degradation c...
Induced protein degradation can be achieved by several modalities, which include direct inducers of neosubstrate-ligase interactors and modulators of protein surface exposure. Molecular glues remodel protein interaction interfaces, engineering a complimentary interaction. Heterobifunctional molecules contain two binding moieties and a linker that brings two proteins into proximity. Small molecules can promote exposure of a cryptic degron by disrupting protein complexes or by inducing a conformational change. Degrons that are sensitive to posttranslational modifications (PTMs) can be modulated using small molecules that regulate the PTM state. POI, protein of interest; Ub, ubiquitin.