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Catalytic Degraders Effectively Address Kinase Site Mutations in EML4-ALK Oncogenic Fusions.催化降解物能有效解决 EML4-ALK 致癌融合中激酶结构域的突变。
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开发磺酰氟化学探针以推动对cereblon调节剂的发现。

Development of sulfonyl fluoride chemical probes to advance the discovery of cereblon modulators.

作者信息

Liu Yingpeng, Nowak Radosław P, Che Jianwei, Donovan Katherine A, Huerta Fidel, Liu Hu, Metivier Rebecca J, Fischer Eric S, Jones Lyn H

机构信息

Center for Protein Degradation, Dana-Farber Cancer Institute Boston MA USA

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School Boston MA USA.

出版信息

RSC Med Chem. 2024 Jan 9;15(2):607-611. doi: 10.1039/d3md00652b. eCollection 2024 Feb 21.

DOI:10.1039/d3md00652b
PMID:38389883
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10880902/
Abstract

Sulfonyl fluoride EM12-SF was developed previously to covalently engage a histidine residue in the sensor loop of cereblon (CRBN) in the E3 ubiquitin ligase complex CRL4. Here, we further develop the structure-activity relationships of additional sulfonyl fluoride containing ligands that possess a range of cereblon binding potencies in cells. Isoindoline EM364-SF, which lacks a key hydrogen bond acceptor present in CRBN molecular glues, was identified as a potent binder of CRBN. This led to the development of the reversible molecular glue CPD-2743, that retained cell-based binding affinity for CRBN and degraded the neosubstrate IKZF1 to the same extent as EM12, but unlike isoindolinones, lacked SALL4 degradation activity (a target linked to teratogenicity). CPD-2743 had high permeability and lacked efflux in Caco-2 cells, in contrast to the isoindolinone iberdomide. Our methodology expands the repertoire of sulfonyl exchange chemical biology the advancement of medicinal chemistry design strategies.

摘要

磺酰氟EM12-SF先前已被开发出来,用于共价结合E3泛素连接酶复合物CRL4中cereblon(CRBN)传感器环中的组氨酸残基。在此,我们进一步研究了其他含磺酰氟配体的构效关系,这些配体在细胞中具有一系列与CRBN的结合能力。异吲哚啉EM364-SF缺乏CRBN分子胶水(molecular glue)中存在的关键氢键受体,被鉴定为CRBN的有效结合剂。这促使了可逆分子胶水CPD-2743的开发,它对CRBN保持基于细胞的结合亲和力,并将新底物IKZF1降解到与EM12相同的程度,但与异吲哚啉酮不同,它缺乏SALL4降解活性(一个与致畸性相关的靶点)。与异吲哚啉酮泊马度胺相比,CPD-2743在Caco-2细胞中具有高渗透性且无外排现象。我们的方法扩展了磺酰交换化学生物学的范畴,推动了药物化学设计策略的进步。