Frontiers in Immunology (Aug 2024)

Rigid crosslinking of the CD3 complex leads to superior T cell stimulation

  • Alfreda D. Nelson,
  • Liangyu Wang,
  • Kimberly G. Laffey,
  • Laura R. E. Becher,
  • Christopher A. Parks,
  • Michele M. Hoffmann,
  • Belinda K. Galeano,
  • Ashutosh Mangalam,
  • Emma Teixeiro,
  • Emma Teixeiro,
  • Tommi A. White,
  • Adam G. Schrum,
  • Adam G. Schrum,
  • Adam G. Schrum,
  • John F. Cannon,
  • Diana Gil,
  • Diana Gil,
  • Diana Gil

DOI
https://doi.org/10.3389/fimmu.2024.1434463
Journal volume & issue
Vol. 15

Abstract

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Functionally bivalent non-covalent Fab dimers (Bi-Fabs) specific for the TCR/CD3 complex promote CD3 signaling on T cells. While comparing functional responses to stimulation with Bi-Fab, F(ab’)2 or mAb specific for the same CD3 epitope, we observed fratricide requiring anti-CD3 bridging of adjacent T cells. Surprisingly, anti-CD3 Bi-Fab ranked first in fratricide potency, followed by anti-CD3 F(ab’)2 and anti-CD3 mAb. Low resolution structural studies revealed anti-CD3 Bi-Fabs and F(ab’)2 adopt similar global shapes with CD3-binding sites oriented outward. However, under molecular dynamic simulations, anti-CD3 Bi-Fabs crosslinked CD3 more rigidly than F(ab’)2. Furthermore, molecular modelling of Bi-Fab and F(ab’)2 binding to CD3 predicted crosslinking of T cell antigen receptors located in opposing plasma membrane domains, a feature fitting with T cell fratricide observed. Thus, increasing rigidity of Fab-CD3 crosslinking between opposing effector-target pairs may result in stronger T cell effector function. These findings could guide improving clinical performance of bi-specific anti-CD3 drugs.

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