Unveiling the hidden interactome of CRBN molecular glues with chemoproteomics

bioRxiv - Cancer Biology Pub Date : 2024-09-15 DOI:10.1101/2024.09.11.612438

Khewoong Baek, Rebecca J Metivier, Shourya S Roy Burman, Jonathan W Bushman, Ryan J Lumpkin, Dinah M Abeja, Megha Lakshminarayan, Hong Yue, Samuel Ojeda, Alyssa L Verano, Nathanael Gray, Katherine A Donovan, Eric S Fischer

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Abstract

Targeted protein degradation and induced proximity refer to strategies that leverage the recruitment of proteins to facilitate their modification, regulation or degradation. As prospective design of glues remains challenging, unbiased discovery methods are needed to unveil hidden chemical targets. Here we establish a high throughput affinity purification mass spectrometry workflow in cell lysates for the unbiased identification of molecular glue targets. By mapping the targets of 20 CRBN-binding molecular glues, we identify 298 protein targets and demonstrate the utility of enrichment methods for identifying novel targets overlooked using established methods. We use a computational workflow to estimate target confidence and perform a biochemical screen to identify a lead compound for the new non-ZF target PPIL4. Our study provides a comprehensive inventory of targets chemically recruited to CRBN and delivers a robust and scalable workflow for identifying new drug-induced protein interactions in cell lysates.

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利用化学蛋白质组学揭示 CRBN 分子胶隐藏的相互作用组

靶向蛋白质降解和诱导接近指的是利用蛋白质的招募来促进其修饰、调节或降解的策略。由于粘合剂的前瞻性设计仍然具有挑战性，因此需要无偏见的发现方法来揭示隐藏的化学靶标。在这里，我们在细胞裂解液中建立了一个高通量亲和纯化质谱工作流程，用于无偏见地鉴定分子胶目标。通过绘制 20 个 CRBN 结合分子胶的靶标图，我们确定了 298 个蛋白质靶标，并证明了富集方法在确定使用既定方法忽略的新靶标方面的效用。我们使用计算工作流程来估计靶点的可信度，并进行生化筛选，为新的非 ZF 靶点 PPIL4 确定先导化合物。我们的研究为化学招募到 CRBN 的靶点提供了一个全面的清单，并为鉴定细胞裂解液中新的药物诱导蛋白相互作用提供了一个稳健且可扩展的工作流程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Cancer Biology

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