Nature Communications (Feb 2024)

Mirror-image ligand discovery enabled by single-shot fast-flow synthesis of D-proteins

  • Alex J. Callahan,
  • Satish Gandhesiri,
  • Tara L. Travaline,
  • Rahi M. Reja,
  • Lia Lozano Salazar,
  • Stephanie Hanna,
  • Yen-Chun Lee,
  • Kunhua Li,
  • Olena S. Tokareva,
  • Jean-Marie Swiecicki,
  • Andrei Loas,
  • Gregory L. Verdine,
  • John H. McGee,
  • Bradley L. Pentelute

DOI
https://doi.org/10.1038/s41467-024-45634-z
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Widespread adoption of mirror-image biological systems presents difficulties in accessing the requisite D-protein substrates. In particular, mirror-image phage display has the potential for high-throughput generation of biologically stable macrocyclic D-peptide binders with potentially unique recognition modes but is hindered by the individualized optimization required for D-protein chemical synthesis. We demonstrate a general mirror-image phage display pipeline that utilizes automated flow peptide synthesis to prepare D-proteins in a single run. With this approach, we prepare and characterize 12 D-proteins – almost one third of all reported D-proteins to date. With access to mirror-image protein targets, we describe the successful discovery of six macrocyclic D-peptide binders: three to the oncoprotein MDM2, and three to the E3 ubiquitin ligase CHIP. Reliable production of mirror-image proteins can unlock the full potential of D-peptide drug discovery and streamline the study of mirror-image biology more broadly.