Cereblon 调节剂通过不同的结构降解基靶向 ZBTB16 及其致癌融合伙伴进行降解。

Cereblon Modulators Target ZBTB16 and Its Oncogenic Fusion Partners for Degradation via Distinct Structural Degrons.

机构信息

Bristol Myers Squibb Company, San Diego, California 92121, United States.

Bristol Myers Squibb CompanyCambridgeMassachusetts02140United States.

出版信息

ACS Chem Biol. 2020 Dec 18;15(12):3149-3158. doi: 10.1021/acschembio.0c00674. Epub 2020 Nov 18.

DOI:10.1021/acschembio.0c00674

PMID:33206504

Abstract

There is a growing interest in using targeted protein degradation as a therapeutic modality in view of its potential to expand the druggable proteome. One avenue to using this modality is via molecular glue based Cereblon E3 Ligase Modulating Drug compounds. Here, we report the identification of the transcription factor ZBTB16 as a Cereblon neosubstrate. We also report two new Cereblon modulators, CC-3060 and CC-647, that promote ZBTB16 degradation. Unexpectedly, CC-3060 and CC-647 target ZBTB16 for degradation by primarily engaging distinct structural degrons on different zinc finger domains. The reciprocal fusion proteins, ZBTB16-RARα and RARα-ZBTB16, which cause a rare acute promyelocytic leukemia, contain these same structural degrons and can be targeted for proteasomal degradation with Cereblon modulator treatment. Thus, a targeted protein degradation approach via Cereblon modulators may represent a novel therapeutic strategy in acute promyelocytic leukemia where / rearrangements are critical disease drivers.

摘要

鉴于靶向蛋白降解在扩大可成药蛋白质组方面的潜力，人们对其作为一种治疗方式的兴趣日益浓厚。利用这种方式的一个途径是通过分子胶基 Cereblon E3 连接酶调节药物化合物。在这里，我们报告了转录因子 ZBTB16 作为 Cereblon 新型底物的鉴定。我们还报告了两种新的 Cereblon 调节剂 CC-3060 和 CC-647，它们可促进 ZBTB16 的降解。出乎意料的是，CC-3060 和 CC-647 主要通过与不同锌指结构域上不同的结构降解基元结合，将 ZBTB16 靶向降解。导致罕见的急性早幼粒细胞白血病的相互融合蛋白 ZBTB16-RARα 和 RARα-ZBTB16 也含有这些相同的结构降解基元，并用 Cereblon 调节剂治疗可靶向进行蛋白酶体降解。因此，通过 Cereblon 调节剂进行靶向蛋白降解可能代表一种新的治疗策略，在急性早幼粒细胞白血病中，/重排是关键的疾病驱动因素。

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Cereblon 调节剂通过不同的结构降解基靶向 ZBTB16 及其致癌融合伙伴进行降解。

Cereblon Modulators Target ZBTB16 and Its Oncogenic Fusion Partners for Degradation via Distinct Structural Degrons.

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