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Orthosteric STING inhibition elucidates molecular correction of SAVI STING

Author

Listed:
  • Tao Xie

    (Bristol Myers Squibb)

  • Max Ruzanov

    (Bristol Myers Squibb)

  • David Critton

    (Bristol Myers Squibb)

  • Leidy Merselis

    (250 Water St)

  • Joseph Naglich

    (Bristol Myers Squibb)

  • John S. Sack

    (Bristol Myers Squibb)

  • Ping Zhang

    (Bristol Myers Squibb)

  • Chunshan Xie

    (Bristol Myers Squibb)

  • Jeffrey Tredup

    (Bristol Myers Squibb)

  • Laurel B. Stine

    (250 Water St)

  • Cameron Messier

    (250 Water St)

  • David L. Hope

    (250 Water St)

  • Janet Caceres-Cortes

    (Bristol Myers Squibb)

  • Luciano Mueller

    (Bristol Myers Squibb)

  • Alaric J. Dyckman

    (Bristol Myers Squibb)

  • John A. Newitt

    (Bristol Myers Squibb)

  • Asmita Choudhury

    (Jigani Link Road)

  • Stephen C. Wilson

    (250 Water St)

Abstract

While the progression of STING activators into the clinic has been successful, the discovery and clinical progression of STING inhibitors remain elusive. Questions persist about the molecular properties needed to distinguish between a STING activator and inhibitor, particularly within SAVI disease, a monogenic autoinflammatory disease that renders STING constitutively active, and how different conformations correlate to function. In this work, we use an orthosteric STING activator and inhibitor from the same chemical series to discover that STING M271 is a critical residue for molecular activation that can be leveraged as a unique molecular signature for pharmacological or genetically driven activation and inhibition. Furthermore, we demonstrate how the therapeutic requirements of a molecular corrector of SAVI STING differs from an orthosteric STING inhibitor, and why this is important for the SAVI disease population.

Suggested Citation

  • Tao Xie & Max Ruzanov & David Critton & Leidy Merselis & Joseph Naglich & John S. Sack & Ping Zhang & Chunshan Xie & Jeffrey Tredup & Laurel B. Stine & Cameron Messier & David L. Hope & Janet Caceres-, 2025. "Orthosteric STING inhibition elucidates molecular correction of SAVI STING," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-60632-5
    DOI: 10.1038/s41467-025-60632-5
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    References listed on IDEAS

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