Frontiers in Immunology (Dec 2019)

Molecular Landscape of Anti-Drug Antibodies Reveals the Mechanism of the Immune Response Following Treatment With TNFα Antagonists

  • Anna Vaisman-Mentesh,
  • Shai Rosenstein,
  • Miri Yavzori,
  • Yael Dror,
  • Ella Fudim,
  • Bella Ungar,
  • Uri Kopylov,
  • Orit Picard,
  • Aya Kigel,
  • Shomron Ben-Horin,
  • Itai Benhar,
  • Yariv Wine

DOI
https://doi.org/10.3389/fimmu.2019.02921
Journal volume & issue
Vol. 10

Abstract

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Drugs formulated from monoclonal antibodies (mAbs) are clinically effective in various diseases. Repeated administration of mAbs, however, elicits an immune response in the form of anti-drug-antibodies (ADA), thereby reducing the drug's efficacy. Notwithstanding their importance, the molecular landscape of ADA and the mechanisms involved in their formation are not fully understood. Using a newly developed quantitative bio-immunoassay, we found that ADA concentrations specific to TNFα antagonists can exceed extreme concentrations of 1 mg/ml with a wide range of neutralization capacity. Our data further suggest a preferential use of the λ light chain in a subset of neutralizing ADA. Moreover, we show that administration of TNFα antagonists result in a vaccine-like response whereby ADA formation is governed by the extrafollicular T cell-independent immune response. Our bio-immunoassay coupled with insights on the nature of the immune response can be leveraged to improve mAb immunogenicity assessment and facilitate improvement in therapeutic intervention strategies.

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