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Design-rules for stapled peptides with in vivo activity and their application to Mdm2/X antagonists

Author

Listed:
  • Arun Chandramohan

    (MSD International)

  • Hubert Josien

    (Merck & Co., Inc.)

  • Tsz Ying Yuen

    (Energy and Environment, Agency for Science, Technology and Research (ASTAR))

  • Ruchia Duggal

    (Merck & Co., Inc.)

  • Diana Spiegelberg

    (Uppsala University)

  • Lin Yan

    (Merck & Co., Inc.)

  • Yu-Chi Angela Juang

    (MSD International)

  • Lan Ge

    (Merck & Co., Inc.)

  • Pietro G. Aronica

    (Agency for Science, Technology and Research (ASTAR))

  • Hung Yi Kristal Kaan

    (MSD International)

  • Yee Hwee Lim

    (Energy and Environment, Agency for Science, Technology and Research (ASTAR))

  • Andrea Peier

    (Merck & Co., Inc.)

  • Brad Sherborne

    (Merck & Co., Inc.)

  • Jerome Hochman

    (Merck & Co., Inc.)

  • Songnian Lin

    (Merck & Co., Inc.)

  • Kaustav Biswas

    (Merck & Co., Inc.)

  • Marika Nestor

    (Uppsala University)

  • Chandra S. Verma

    (Agency for Science, Technology and Research (ASTAR))

  • David P. Lane

    (Institute of Molecular and Cell Biology)

  • Tomi K. Sawyer

    (Merck & Co., Inc.)

  • Robert Garbaccio

    (Merck & Co., Inc.)

  • Brian Henry

    (MSD International)

  • Srinivasaraghavan Kannan

    (Agency for Science, Technology and Research (ASTAR))

  • Christopher J. Brown

    (Institute of Molecular and Cell Biology)

  • Charles W. Johannes

    (Energy and Environment, Agency for Science, Technology and Research (ASTAR)
    Institute of Molecular and Cell Biology
    EPOC Scientific LLC)

  • Anthony W. Partridge

    (MSD International
    Genentech)

Abstract

Although stapled α-helical peptides can address challenging targets, their advancement is impeded by poor understandings for making them cell permeable while avoiding off-target toxicities. By synthesizing >350 molecules, we present workflows for identifying stapled peptides against Mdm2(X) with in vivo activity and no off-target effects. Key insights include a clear correlation between lipophilicity and permeability, removal of positive charge to avoid off-target toxicities, judicious anionic residue placement to enhance solubility/behavior, optimization of C-terminal length/helicity to enhance potency, and optimization of staple type/number to avoid polypharmacology. Workflow application gives peptides with >292x improved cell proliferation potencies and no off-target cell proliferation effects ( > 3800x on-target index). Application of these ‘design rules’ to a distinct Mdm2(X) peptide series improves ( > 150x) cellular potencies and removes off-target toxicities. The outlined workflow should facilitate therapeutic impacts, especially for those targets such as Mdm2(X) that have hydrophobic interfaces and are targetable with a helical motif.

Suggested Citation

  • Arun Chandramohan & Hubert Josien & Tsz Ying Yuen & Ruchia Duggal & Diana Spiegelberg & Lin Yan & Yu-Chi Angela Juang & Lan Ge & Pietro G. Aronica & Hung Yi Kristal Kaan & Yee Hwee Lim & Andrea Peier , 2024. "Design-rules for stapled peptides with in vivo activity and their application to Mdm2/X antagonists," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-023-43346-4
    DOI: 10.1038/s41467-023-43346-4
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