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Influence of Macrocyclization Strategies on DNA-Encoded Cyclic Peptide Libraries

Hanqing Zhao, Xue Li, Xueyu Yao, Shijie Zhang, Yandan Bao, Weiwei Lu, Minyan Xing, Xudong Wang, Xudong Wang, Xuan Wang, Xuan Wang, Yujun Zhao, Qian Chu, Xiaojie Lu

2025JACS Au8 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Discovery of cyclic peptide hits using DNA-encoded libraries (DELs) has recently been extensively researched, with significant efforts directed toward developing DEL-compatible macrocyclization methods. To investigate how different cyclic linkers influence DEL selection outcomes, we constructed eight distinct sublibraries and screened them against two protein targets, MDM2 and GIT1, resulting in two representative yet contrasting scenarios. Validation studies for MDM2 revealed that structural similarity patterns observed across multiple sublibraries could enhance confidence in the authenticity of identified hits. Notably, cmp-10 demonstrated potent inhibitory activity, exhibiting an inhibition constant of 11 nM. In contrast, selections against GIT1 produced discrete enrichment patterns. From these outcomes, two exemplary compounds were selected and validated through both the on-DNA and off-DNA modes. cmp-17 was confirmed to bind specifically to the desired binding pocket, displaying a dissociation constant of 1.22 μM. Furthermore, ITC experiments using mutant GIT1 proteins (GIT1 L271A/L279A and GIT1 L271k/L279k ) provided additional insights into the mechanism by which cmp-17 disrupts the interaction between GIT1 and β-PIX.

Topics & Concepts

PeptideDNAChemistryCyclic peptideComputational biologyCombinatorial chemistryStereochemistryBiochemistryBiologyChemical Synthesis and AnalysisGlycosylation and Glycoproteins ResearchClick Chemistry and Applications