Abstract
AbstractDNA‐encoded combinatorial synthesis provides efficient and dense coverage of chemical space around privileged molecular structures. The indole side chain of tryptophan plays a prominent role in key, or “hot spot”, regions of protein–protein interactions. A DNA‐encoded combinatorial peptoid library was designed based on the Ugi four‐component reaction by employing tryptophan‐mimetic indole side chains to probe the surface of target proteins. Several peptoids were synthesized on a chemically stable hexathymidine adapter oligonucleotide “hexT”, encoded by DNA sequences, and substituted by azide‐alkyne cycloaddition to yield a library of 8112 molecules. Selection experiments for the tumor‐relevant proteins MDM2 and TEAD4 yielded MDM2 binders and a novel class of TEAD‐YAP interaction inhibitors that perturbed the expression of a gene under the control of these Hippo pathway effectors.
Highlights
DNA-encoded combinatorial synthesis provides efficient and dense coverage of chemical space around privileged molecular structures
We studied the biological consequences of the compound–human TEAD4 (hTEAD4) interaction
Manuscript received: April 30, 2020 Revised manuscript received: May 20, 2020 Version of record online: July 15, 2020
Summary
TEAD-YAP Interaction Inhibitors and MDM2 Binders from DNA-Encoded Indole-Focused Ugi Peptidomimetics Kunig, Verena B K; Potowski, Marco; Akbarzadeh, Mohammad; Klika Škopić, Mateja; Dos Santos Smith, Denise; Arendt, Lukas; Dormuth, Ina; Adihou, Hélène; Andlovic, Blaž; Karatas, Hacer. Document Version Publisher's PDF, known as Version of record. Citation for published version (APA): Kunig, V. More information can be found on the University of Groningen website: https://www.rug.nl/library/open-access/self-archiving-pure/taverneamendment. Take-down policy If you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim
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