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Checkpoint inhibition through small molecule-induced internalization of programmed death-ligand 1

Author

Listed:
  • Jang-June Park

    (Arbutus Biopharma Inc)

  • Emily P. Thi

    (Arbutus Biopharma Inc)

  • Victor H. Carpio

    (Arbutus Biopharma Inc)

  • Yingzhi Bi

    (Arbutus Biopharma Inc)

  • Andrew G. Cole

    (Arbutus Biopharma Inc)

  • Bruce D. Dorsey

    (Arbutus Biopharma Inc)

  • Kristi Fan

    (Arbutus Biopharma Inc)

  • Troy Harasym

    (Arbutus Biopharma Inc)

  • Christina L. Iott

    (Arbutus Biopharma Inc)

  • Salam Kadhim

    (Arbutus Biopharma Inc)

  • Jin Hyang Kim

    (Arbutus Biopharma Inc)

  • Amy C. H. Lee

    (Arbutus Biopharma Inc)

  • Duyan Nguyen

    (Arbutus Biopharma Inc)

  • Bhavna S. Paratala

    (Arbutus Biopharma Inc)

  • Ruiqing Qiu

    (Arbutus Biopharma Inc)

  • Andre White

    (Xtal BioStructures Inc.)

  • Damodharan Lakshminarasimhan

    (Xtal BioStructures Inc.)

  • Christopher Leo

    (Xtal BioStructures Inc.)

  • Robert K. Suto

    (Xtal BioStructures Inc.)

  • Rene Rijnbrand

    (Arbutus Biopharma Inc)

  • Sunny Tang

    (Arbutus Biopharma Inc)

  • Michael J. Sofia

    (Arbutus Biopharma Inc)

  • Chris B. Moore

    (Arbutus Biopharma Inc)

Abstract

Programmed death-ligand 1 is a glycoprotein expressed on antigen presenting cells, hepatocytes, and tumors which upon interaction with programmed death-1, results in inhibition of antigen-specific T cell responses. Here, we report a mechanism of inhibiting programmed death-ligand 1 through small molecule-induced dimerization and internalization. This represents a mechanism of checkpoint inhibition, which differentiates from anti-programmed death-ligand 1 antibodies which function through molecular disruption of the programmed death 1 interaction. Testing of programmed death ligand 1 small molecule inhibition in a humanized mouse model of colorectal cancer results in a significant reduction in tumor size and promotes T cell proliferation. In addition, antigen-specific T and B cell responses from patients with chronic hepatitis B infection are significantly elevated upon programmed death ligand 1 small molecule inhibitor treatment. Taken together, these data identify a mechanism of small molecule-induced programmed death ligand 1 internalization with potential therapeutic implications in oncology and chronic viral infections.

Suggested Citation

  • Jang-June Park & Emily P. Thi & Victor H. Carpio & Yingzhi Bi & Andrew G. Cole & Bruce D. Dorsey & Kristi Fan & Troy Harasym & Christina L. Iott & Salam Kadhim & Jin Hyang Kim & Amy C. H. Lee & Duyan , 2021. "Checkpoint inhibition through small molecule-induced internalization of programmed death-ligand 1," Nature Communications, Nature, vol. 12(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21410-1
    DOI: 10.1038/s41467-021-21410-1
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