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Thalidomide derivatives degrade BCL-2 by reprogramming the binding surface of CRBN

Cell Reports Physical Science. 2024-05; 
Jianhui Wang (王建辉) , Marcel Heinz, Kang Han (韩康), Varun J. Shah, Sebastian Hasselbeck, Martin P. Schwalm, Rajeshwari Rathore, Gerhard Hummer, Jun Zhou (周俊), Ivan Dikic, Xinlai Cheng (承辛来)
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Molecular Biology Reagents BCL-2G101V, BCL-2F104C, BCL-2K17R, BCL-2K22R, BCL-2ΔBH1, BCL-2ΔBH2, BCL-2ΔBH3, and BCL-2ΔBH4 plasmids were made and validated by Genscript (Dutch). Get A Quote

摘要

Recent studies demonstrate that modified thalidomide chemically alters the binding surface of its binding E3 ligase, CRBN, leading to the degradation of new substrate proteins. In this study, we conduct a proteome-wide analysis of thalidomide-like compounds and pinpoint three derivatives (C5, C6, and C7) that specifically target and degrade the BCL-2 protein. Using AlphaFold-driven molecular modeling combined with experimental data, we suggest that GLY128, ALA131, and THR132 are crucial in forming a CRBN-C5-BCL-2 ternary complex. This interaction is notably distinct from that of venetoclax, a known clinical BCL-2 inhibitor that interacts with the BH3 domain. Significantly, these thalidomide derivatives have the... More

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