Targeting oncoproteins with a positive selection assay for protein degraders

Most intracellular proteins lack hydrophobic pockets suitable for altering their function with drug-like small molecules. Recent studies indicate that some undruggable proteins can be targeted by compounds that can degrade them. For example, thalidomide-like drugs (IMiDs) degrade the critical multip...

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Veröffentlicht in:	Science advances 2021-02, Vol.7 (6)
Hauptverfasser:	Koduri, Vidyasagar, Duplaquet, Leslie, Lampson, Benjamin L, Wang, Adam C, Sabet, Amin H, Ishoey, Mette, Paulk, Joshiawa, Teng, Mingxing, Harris, Isaac S, Endress, Jennifer E, Liu, Xiaoxi, Dasilva, Ethan, Paulo, Joao A, Briggs, Kimberly J, Doench, John G, Ott, Christopher J, Zhang, Tinghu, Donovan, Katherine A, Fischer, Eric S, Gygi, Steven P, Gray, Nathanael S, Bradner, James, Medin, Jeffrey A, Buhrlage, Sara J, Oser, Matthew G, Kaelin, Jr, William G
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Sprache:	eng
Schlagworte:	Adaptor Proteins, Signal Transducing - genetics Basic Helix-Loop-Helix Transcription Factors - metabolism Benzylamines Biochemistry CRISPR-Cas Systems Humans Ikaros Transcription Factor - metabolism Oncogene Proteins - chemistry Oncogene Proteins - metabolism Proteolysis - drug effects Quinazolines SciAdv r-articles Thalidomide - analysis Thalidomide - pharmacology Transcription Factors
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creator	Koduri, Vidyasagar Duplaquet, Leslie Lampson, Benjamin L Wang, Adam C Sabet, Amin H Ishoey, Mette Paulk, Joshiawa Teng, Mingxing Harris, Isaac S Endress, Jennifer E Liu, Xiaoxi Dasilva, Ethan Paulo, Joao A Briggs, Kimberly J Doench, John G Ott, Christopher J Zhang, Tinghu Donovan, Katherine A Fischer, Eric S Gygi, Steven P Gray, Nathanael S Bradner, James Medin, Jeffrey A Buhrlage, Sara J Oser, Matthew G Kaelin, Jr, William G
description	Most intracellular proteins lack hydrophobic pockets suitable for altering their function with drug-like small molecules. Recent studies indicate that some undruggable proteins can be targeted by compounds that can degrade them. For example, thalidomide-like drugs (IMiDs) degrade the critical multiple myeloma transcription factors IKZF1 and IKZF3 by recruiting them to the cereblon E3 ubiquitin ligase. Current loss of signal ("down") assays for identifying degraders often exhibit poor signal-to-noise ratios, narrow dynamic ranges, and false positives from compounds that nonspecifically suppress transcription or translation. Here, we describe a gain of signal ("up") assay for degraders. In arrayed chemical screens, we identified novel IMiD-like IKZF1 degraders and Spautin-1, which, unlike the IMiDs, degrades IKZF1 in a cereblon-independent manner. In a pooled CRISPR-Cas9-based screen, we found that CDK2 regulates the abundance of the ASCL1 oncogenic transcription factor. This methodology should facilitate the identification of drugs that directly or indirectly degrade undruggable proteins.
doi_str_mv	10.1126/sciadv.abd6263
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subjects	Adaptor Proteins, Signal Transducing - genetics Basic Helix-Loop-Helix Transcription Factors - metabolism Benzylamines Biochemistry CRISPR-Cas Systems Humans Ikaros Transcription Factor - metabolism Oncogene Proteins - chemistry Oncogene Proteins - metabolism Proteolysis - drug effects Quinazolines SciAdv r-articles Thalidomide - analysis Thalidomide - pharmacology Transcription Factors
title	Targeting oncoproteins with a positive selection assay for protein degraders
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