Fcγ receptor–mediated cross-linking codefines the immunostimulatory activity of anti-human CD96 antibodies
Anne Rogel, Fathima M. Ibrahim, Stephen M. Thirdborough, Florence Renart-Depontieu, Charles N. Birts, Sarah L. Buchan, Xavier Preville, Emma V. King, Aymen Al-Shamkhani
Anne Rogel, Fathima M. Ibrahim, Stephen M. Thirdborough, Florence Renart-Depontieu, Charles N. Birts, Sarah L. Buchan, Xavier Preville, Emma V. King, Aymen Al-Shamkhani
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Research Article Immunology

Fcγ receptor–mediated cross-linking codefines the immunostimulatory activity of anti-human CD96 antibodies

Abstract

New strategies that augment T cell responses are required to broaden the therapeutic arsenal against cancer. CD96, TIGIT, and CD226 are receptors that bind to a communal ligand, CD155, and transduce either inhibitory or activating signals. The function of TIGIT and CD226 is established, whereas the role of CD96 remains ambiguous. Using a panel of engineered antibodies, we discovered that the T cell stimulatory activity of anti-CD96 antibodies requires antibody cross-linking and is potentiated by Fcγ receptors. Thus, soluble “Fc silent” anti-CD96 antibodies failed to stimulate human T cells, whereas the same antibodies were stimulatory after coating onto plastic surfaces. Remarkably, the activity of soluble anti-CD96 antibodies was reinstated by engineering the Fc domain to a human IgG1 isotype, and it was dependent on antibody trans-cross-linking by FcγRI. In contrast, neither human IgG2 nor variants with increased Fcγ receptor IIB binding possessed stimulatory activity. Anti-CD96 antibodies acted directly on T cells and augmented gene expression networks associated with T cell activation, leading to proliferation, cytokine secretion, and resistance to Treg suppression. Furthermore, CD96 expression correlated with survival in HPV+ head and neck squamous cell carcinoma, and its cross-linking activated tumor-infiltrating T cells, thus highlighting the potential of anti-CD96 antibodies in cancer immunotherapy.

Authors

Anne Rogel, Fathima M. Ibrahim, Stephen M. Thirdborough, Florence Renart-Depontieu, Charles N. Birts, Sarah L. Buchan, Xavier Preville, Emma V. King, Aymen Al-Shamkhani

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Figure 2

Immobilized CD96 mAbs enhance CD4+ and CD8+ T cell proliferation.

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Immobilized CD96 mAbs enhance CD4+ and CD8+ T cell proliferation. (A–C) ...
(A–C) CFSE-labeled PBMCs were stimulated for 4 days with soluble OKT3 and plate-bound anti-CD96 mS2a antibodies or an isotype control (mS2a-IC), in the presence of (C) soluble blocking anti-CD155 mAb or an IC (m1-IC). Cell division among T cell subsets was analyzed by flow cytometry. (A) Representative examples of CFSE dilution. (B and C) Data show the mean ± SEM of the frequency of dividing cells, with each symbol representing the mean of triplicate wells for an individual HD. (D) CFSE-labeled CD3+ T cells purified from HDs were stimulated for 5 days with soluble anti-CD3/anti-CD28 tetrameric complexes and plate-bound anti-CD96 mS2a antibody (clone 19-134) or an IC. Each data point represents the mean of the frequency of dividing cells from triplicate wells for an individual HD. Data are combined from (B) n = 6, n = 4, and n = 2 independent experiments for clones 19-134, 19-14. and 4-31, respectively, and from (C) n = 2 and (D) n = 3 independent experiments. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001. (B and D) Two-tailed paired Student’s t test; (C) 1-way ANOVA.