DNA-encoded library-enabled discovery of proximity-inducing small molecules

Small molecules that induce protein–protein associations represent powerful tools to modulate cell circuitry. We sought to develop a platform for the direct discovery of compounds able to induce association of any two preselected proteins, using the E3 ligase von Hippel–Lindau (VHL) and bromodomains...

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Veröffentlicht in:	Nature chemical biology 2024-02, Vol.20 (2), p.170-179
Hauptverfasser:	Mason, Jeremy W., Chow, Yuen Ting, Hudson, Liam, Tutter, Antonin, Michaud, Gregory, Westphal, Matthias V., Shu, Wei, Ma, Xiaolei, Tan, Zher Yin, Coley, Connor W., Clemons, Paul A., Bonazzi, Simone, Berst, Frédéric, Briner, Karin, Liu, Shuang, Zécri, Frédéric J., Schreiber, Stuart L.
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Schlagworte:	631/154 631/92/507 Biochemical Engineering Biochemistry Biology Biomedical research Bioorganic Chemistry Cell Biology Chemistry Chemistry and Materials Science Chemistry/Food Science Circuits Combinatorial analysis Combinatorial chemistry Complex formation Connectors Crystal structure Deoxyribonucleic acid DNA Libraries Ligands Nuclear Proteins - metabolism Proteins Proximity Screening Transcription Factors Ubiquitin-protein ligase Ubiquitin-Protein Ligases - metabolism Von Hippel-Lindau Tumor Suppressor Protein - chemistry Von Hippel-Lindau Tumor Suppressor Protein - metabolism
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creator	Mason, Jeremy W. Chow, Yuen Ting Hudson, Liam Tutter, Antonin Michaud, Gregory Westphal, Matthias V. Shu, Wei Ma, Xiaolei Tan, Zher Yin Coley, Connor W. Clemons, Paul A. Bonazzi, Simone Berst, Frédéric Briner, Karin Liu, Shuang Zécri, Frédéric J. Schreiber, Stuart L.
description	Small molecules that induce protein–protein associations represent powerful tools to modulate cell circuitry. We sought to develop a platform for the direct discovery of compounds able to induce association of any two preselected proteins, using the E3 ligase von Hippel–Lindau (VHL) and bromodomains as test systems. Leveraging the screening power of DNA-encoded libraries (DELs), we synthesized ~1 million DNA-encoded compounds that possess a VHL-targeting ligand, a variety of connectors and a diversity element generated by split-and-pool combinatorial chemistry. By screening our DEL against bromodomains in the presence and absence of VHL, we could identify VHL-bound molecules that simultaneously bind bromodomains. For highly barcode-enriched library members, ternary complex formation leading to bromodomain degradation was confirmed in cells. Furthermore, a ternary complex crystal structure was obtained for our most enriched library member with BRD4 BD1 and a VHL complex. Our work provides a foundation for adapting DEL screening to the discovery of proximity-inducing small molecules. A high-throughput DNA-encoded library (DEL)-based screening approach was developed for the discovery of proximity-inducing small molecules.
doi_str_mv	10.1038/s41589-023-01458-4
format	Article
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subjects	631/154 631/92/507 Biochemical Engineering Biochemistry Biology Biomedical research Bioorganic Chemistry Cell Biology Chemistry Chemistry and Materials Science Chemistry/Food Science Circuits Combinatorial analysis Combinatorial chemistry Complex formation Connectors Crystal structure Deoxyribonucleic acid DNA Libraries Ligands Nuclear Proteins - metabolism Proteins Proximity Screening Transcription Factors Ubiquitin-protein ligase Ubiquitin-Protein Ligases - metabolism Von Hippel-Lindau Tumor Suppressor Protein - chemistry Von Hippel-Lindau Tumor Suppressor Protein - metabolism
title	DNA-encoded library-enabled discovery of proximity-inducing small molecules
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