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A human CD137×PD-L1 bispecific antibody promotes anti-tumor immunity via context-dependent T cell costimulation and checkpoint blockade

Author

Listed:
  • Cecile Geuijen

    (Merus NV)

  • Paul Tacken

    (Merus NV)

  • Liang-Chuan Wang

    (Incyte Corporation)

  • Rinse Klooster

    (Merus NV)

  • Pieter Fokko Loo

    (Merus NV)

  • Jing Zhou

    (Incyte Corporation)

  • Arpita Mondal

    (Incyte Corporation)

  • Yao-bin Liu

    (Incyte Corporation)

  • Arjen Kramer

    (Merus NV)

  • Thomas Condamine

    (Incyte Corporation)

  • Alla Volgina

    (Incyte Corporation)

  • Linda J. A. Hendriks

    (Merus NV)

  • Hans Maaden

    (Merus NV)

  • Eric Rovers

    (Merus NV)

  • Steef Engels

    (Merus NV)

  • Floris Fransen

    (Merus NV)

  • Renate Blanken-Smit

    (Merus NV)

  • Vanessa Zondag-van der Zande

    (Merus NV)

  • Abdul Basmeleh

    (Merus NV)

  • Willem Bartelink

    (Merus NV)

  • Ashwini Kulkarni

    (Incyte Corporation)

  • Wilfred Marissen

    (Merus NV)

  • Cheng-Yen Huang

    (Incyte Corporation)

  • Leslie Hall

    (Incyte Corporation)

  • Shane Harvey

    (Incyte Corporation)

  • Soyeon Kim

    (University of Pennsylvania)

  • Marina Martinez

    (University of Pennsylvania)

  • Shaun O’Brien

    (University of Pennsylvania)

  • Edmund Moon

    (University of Pennsylvania)

  • Steven Albelda

    (University of Pennsylvania)

  • Chrysi Kanellopoulou

    (Incyte Corporation)

  • Shaun Stewart

    (Incyte Corporation)

  • Horacio Nastri

    (Incyte Corporation)

  • Alexander B. H. Bakker

    (Merus NV)

  • Peggy Scherle

    (Incyte Corporation)

  • Ton Logtenberg

    (Merus NV)

  • Gregory Hollis

    (Incyte Corporation)

  • John Kruif

    (Merus NV)

  • Reid Huber

    (Incyte Corporation)

  • Patrick A. Mayes

    (Incyte Corporation)

  • Mark Throsby

    (Merus NV)

Abstract

Immune checkpoint inhibitors demonstrate clinical activity in many tumor types, however, only a fraction of patients benefit. Combining CD137 agonists with these inhibitors increases anti-tumor activity preclinically, but attempts to translate these observations to the clinic have been hampered by systemic toxicity. Here we describe a human CD137xPD-L1 bispecific antibody, MCLA-145, identified through functional screening of agonist- and immune checkpoint inhibitor arm combinations. MCLA-145 potently activates T cells at sub-nanomolar concentrations, even under suppressive conditions, and enhances T cell priming, differentiation and memory recall responses. In vivo, MCLA-145 anti-tumor activity is superior to immune checkpoint inhibitor comparators and linked to recruitment and intra-tumor expansion of CD8 + T cells. No graft-versus-host-disease is observed in contrast to other antibodies inhibiting the PD-1 and PD-L1 pathway. Non-human primates treated with 100 mg/kg/week of MCLA-145 show no adverse effects. The conditional activation of CD137 signaling by MCLA-145, triggered by neighboring cells expressing >5000 copies of PD-L1, may provide both safety and potency advantages.

Suggested Citation

  • Cecile Geuijen & Paul Tacken & Liang-Chuan Wang & Rinse Klooster & Pieter Fokko Loo & Jing Zhou & Arpita Mondal & Yao-bin Liu & Arjen Kramer & Thomas Condamine & Alla Volgina & Linda J. A. Hendriks & , 2021. "A human CD137×PD-L1 bispecific antibody promotes anti-tumor immunity via context-dependent T cell costimulation and checkpoint blockade," Nature Communications, Nature, vol. 12(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24767-5
    DOI: 10.1038/s41467-021-24767-5
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