Frontiers in Immunology (May 2024)

Characterization of anti-drug antibody responses to the T-cell engaging bispecific antibody cibisatamab to understand the impact on exposure

  • Gregor P. Lotz,
  • Achim Lutz,
  • Meret Martin-Facklam,
  • Andre Hansbauer,
  • Eginhard Schick,
  • Ekkehard Moessner,
  • Michael Antony,
  • Thomas Stuchly,
  • Maria Viert,
  • Ralf J. Hosse,
  • Anne Freimoser-Grundschober,
  • Christian Klein,
  • Martin Schäfer,
  • Mirko Ritter,
  • Kay-Gunnar Stubenrauch

DOI
https://doi.org/10.3389/fimmu.2024.1406353
Journal volume & issue
Vol. 15

Abstract

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An appropriately designed pharmacokinetic (PK) assay that is sensitive for anti-drug antibody (ADA) impact on relevant exposure is an alternative strategy to understand the neutralizing potential of ADAs. However, guidance on how to develop such PK assays and how to confirm the functional ADA impact on exposure is missing. Here, the PK assay of a T-cell-engaging bispecific antibody, cibisatamab, was developed based on its mechanism of action (MoA). Using critical monoclonal anti-idiotypic (anti-ID) antibody positive controls as ADA surrogates, the impact on exposure was evaluated pre-clinically. In a phase I clinical trial (NCT02324257), initial data suggest that the combination of ADA and PK assays for correlation of the ADA response with cibisatamab exposure. To understand the neutralizing potential of patient-derived ADAs on drug activity, advanced ADA characterization has been performed. Structural binding analysis of ADAs to antibody domains of the drug and its impact on targeting were assessed. For this purpose, relevant patient ADA binding features were identified and compared with the specific monoclonal anti-ID antibody-positive controls. Comparable results of target binding inhibition and similar impacts on exposure suggest that the observed reduction of Cmax and Ctrough levels in patients is caused by the neutralizing potential of ADAs and allows a correlation between ADA response and loss of exposure. Therefore, the described study provides important functional aspects for the development of an appropriately designed PK assay for bispecific antibodies as an alternative option towards understanding the neutralizing ADA impact on exposure.

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