BMC Molecular and Cell Biology (Aug 2019)

CD40/anti-CD40 antibody complexes which illustrate agonist and antagonist structural switches

  • Maria A. Argiriadi,
  • Lorenzo Benatuil,
  • Ievgeniia Dubrovska,
  • David A. Egan,
  • Lei Gao,
  • Amy Greischar,
  • Jennifer Hardman,
  • John Harlan,
  • Ramesh B. Iyer,
  • Russell A. Judge,
  • Marc Lake,
  • Denise C. Perron,
  • Ramkrishna Sadhukhan,
  • Bernhard Sielaff,
  • Silvino Sousa,
  • Rui Wang,
  • Bradford L. McRae

DOI
https://doi.org/10.1186/s12860-019-0213-4
Journal volume & issue
Vol. 20, no. 1
pp. 1 – 13

Abstract

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Abstract Background CD40 is a 48 kDa type I transmembrane protein that is constitutively expressed on hematopoietic cells such as dendritic cells, macrophages, and B cells. Engagement of CD40 by CD40L expressed on T cells results in the production of proinflammatory cytokines, induces T helper cell function, and promotes macrophage activation. The involvement of CD40 in chronic immune activation has resulted in CD40 being proposed as a therapeutic target for a range of chronic inflammatory diseases. CD40 antagonists are currently being explored for the treatment of autoimmune diseases and several anti-CD40 agonist mAbs have entered clinical development for oncological indications. Results To better understand the mode of action of anti-CD40 mAbs, we have determined the x-ray crystal structures of the ABBV-323 (anti-CD40 antagonist, ravagalimab) Fab alone, ABBV-323 Fab complexed to human CD40 and FAB516 (anti-CD40 agonist) complexed to human CD40. These three crystals structures 1) identify the conformational CD40 epitope for ABBV-323 recognition 2) illustrate conformational changes which occur in the CDRs of ABBV-323 Fab upon CD40 binding and 3) develop a structural hypothesis for an agonist/antagonist switch in the LCDR1 of this proprietary class of CD40 antibodies. Conclusions The structure of ABBV-323 Fab demonstrates a unique method for antagonism by stabilizing the proposed functional antiparallel dimer for CD40 receptor via novel contacts to LCDR1, namely residue position R32 which is further supported by a closely related agonist antibody FAB516 which shows only monomeric recognition and no contacts with LCDR1 due to a mutation to L32 on LCDR1. These data provide a structural basis for the full antagonist activity of ABBV-323.

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