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Peptide Tethering: Pocket-Directed Fragment Screening for Peptidomimetic Inhibitor Discovery

Ashley E. Modell, Frank Marrone, Nihar R. Panigrahi, Yingkai Zhang, Paramjit S. Arora

2022Journal of the American Chemical Society18 citationsDOIOpen Access PDF

Abstract

Constrained peptides have proven to be a rich source of ligands for protein surfaces, but are often limited in their binding potency. Deployment of nonnatural side chains that access unoccupied crevices on the receptor surface offers a potential avenue to enhance binding affinity. We recently described a computational approach to create topographic maps of protein surfaces to guide the design of nonnatural side chains [J. Am. Chem. Soc. 2017, 139, 15560]. The computational method, AlphaSpace, was used to predict peptide ligands for the KIX domain of the p300/CBP coactivator. KIX has been the subject of numerous ligand discovery strategies, but potent inhibitors of its interaction with transcription factors remain difficult to access. Although the computational approach provided a significant enhancement in the binding affinity of the peptide, fine-tuning of nonnatural side chains required an experimental screening method. Here we implement a peptide-tethering strategy to screen fragments as nonnatural side chains on conformationally defined peptides. The combined computational–experimental approach offers a general framework for optimizing peptidomimetics as inhibitors of protein–protein interactions.

Topics & Concepts

PeptidomimeticChemistryPeptideSide chainComputational biologyTetheringDrug discoveryLigand (biochemistry)Protein–protein interactionCombinatorial chemistrySmall moleculeBinding siteStereochemistryBiochemistryReceptorCell biologyPolymerOrganic chemistryBiologyChemical Synthesis and AnalysisUbiquitin and proteasome pathwaysComputational Drug Discovery Methods
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