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Probing the E3 Ligase Adapter Cereblon with Chemical Biology

小脑 化学生物学 化学 德隆 泛素连接酶 沙利度胺 来那度胺 计算生物学 生物化学 泛素 生物 免疫学 基因 多发性骨髓瘤
作者
Wenqing Xu,Christina M. Woo
出处
期刊:Accounts of Chemical Research [American Chemical Society]
卷期号:58 (10): 1632-1643 被引量:3
标识
DOI:10.1021/acs.accounts.5c00059
摘要

The E3 ligase substrate adapter cereblon (CRBN) has garnered widespread interest from the research laboratory to the clinic. CRBN was first discovered for its association with neurological development and subsequently identified as the target of thalidomide and lenalidomide, therapeutic agents used in the treatment of hematopoietic malignancies. Both thalidomide and lenalidomide have been repurposed as ligands for targeted protein degradation therapeutic modalities. These agents were proposed to mimic a naturally occurring ligand, although the native substrate recognition mechanism of CRBN remained elusive. Chemical biology, which involves the use of chemical tools to modulate and probe biological systems, can provide unique insights into the molecular mechanisms and interactions of proteins with their cognate ligands. Here we describe our use of chemical biology approaches, including photoaffinity labeling, chemical proteomics, and targeted protein degradation, to interrogate the biological activities of CRBN in the presence or absence of its ligands. Our development of a photoaffinity labeling probe derived from lenalidomide, termed photolenalidomide, enabled mapping of the binding site on CRBN and identification of a new target recruited to CRBN by lenalidomide through chemical proteomics. Further derivatization of the lenalidomide scaffold afforded DEG-77, a potent degrader with therapeutic efficacy against acute myeloid leukemia. Our parallel development of chemically defined probes that are inspired by heterobifunctional targeted protein degradation agents and functionally engage CRBN in cells revealed that thalidomide is a peptidomimetic of an underappreciated protein modification termed the C-terminal cyclic imide, which arises from intramolecular cyclization of asparagine or glutamine residues and represents a degron endogenously recognized by CRBN. Protein engineering and proteomic efforts validated the CRBN-dependent regulation of proteins bearing the C-terminal cyclic imide modification in vitro and in cells and the prevalence of the C-terminal cyclic imide in the biological system. Application of C-terminal cyclic imides as a class of cyclimid ligands for targeted protein degradation led to the development of a variety of heterobifunctional degraders with distinct efficacy and target selectivity, whereas examination of the occurrence of C-terminal cyclic imides as a form of protein damage uncovered the intrinsic and extrinsic factors that predispose peptides and proteins to C-terminal cyclic imide formation and the role of CRBN in mitigating the accumulation of damaged proteins with a propensity for aggregation. Future investigation of C-terminal cyclic imides, synthetic ligands, and their relationship to CRBN biology will illuminate regulatory mechanisms that are controlled by CRBN and drive the pursuit of additional functional chemistries on proteins and the biological pathways that intercept them.
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