Cell-targeted PD-1 agonists that mimic PD-L1 are potent T cell inhibitors
Adam P. Curnock, Giovanna Bossi, Jyothi Kumaran, Lindsay J. Bawden, Rita Figueiredo, Rajeevkumar Tawar, Katherine Wiseman, Emma Henderson, Sec Julie Hoong, Veronica Gonzalez, Hemza Ghadbane, David E.O. Knight, Ronan O’Dwyer, David X. Overton, Christina M. Lucato, Nicola M.G. Smith, Carlos R. Reis, Keith Page, Lorraine M. Whaley, Michelle L. McCully, Stephen Hearty, Tara M. Mahon, Peter Weber
Adam P. Curnock, Giovanna Bossi, Jyothi Kumaran, Lindsay J. Bawden, Rita Figueiredo, Rajeevkumar Tawar, Katherine Wiseman, Emma Henderson, Sec Julie Hoong, Veronica Gonzalez, Hemza Ghadbane, David E.O. Knight, Ronan O’Dwyer, David X. Overton, Christina M. Lucato, Nicola M.G. Smith, Carlos R. Reis, Keith Page, Lorraine M. Whaley, Michelle L. McCully, Stephen Hearty, Tara M. Mahon, Peter Weber
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Research Article Immunology

Cell-targeted PD-1 agonists that mimic PD-L1 are potent T cell inhibitors

Abstract

The PD-1/PD-L1 pathway is a key immune checkpoint that regulates T cell activation. There is strong rationale to develop PD-1 agonists as therapeutics against autoimmunity, but progress in this area has been limited. Here, we generated T cell receptor (TCR) targeting, PD-1 agonist bispecifics called ImmTAAI molecules that mimic the ability of PD-L1 to facilitate the colocalization of PD-1 with the TCR complex at the target cell–T cell interface. PD-1 agonist ImmTAAI molecules specifically bound to target cells and were highly effective in activating the PD-1 receptor on interacting T cells to achieve immune suppression. Potent PD-1 antibody ImmTAAI molecules closely mimicked the mechanism of action of endogenously expressed PD-L1 in their localization to the target cell–T cell interface, inhibition of proximal TCR signaling events, and suppression of T cell function. At picomolar concentrations, these bispecifics suppressed cytokine production and inhibited CD8+ T cell–mediated cytotoxicity in vitro. Crucially, in soluble form, the PD-1 ImmTAAI molecules were inactive and, hence, could avoid systemic immunosuppression. This study outlines a promising new route to generate more effective, potent, tissue-targeted PD-1 agonists that can inhibit T cell function locally with the potential to treat autoimmune and chronic inflammatory diseases of high unmet need.

Authors

Adam P. Curnock, Giovanna Bossi, Jyothi Kumaran, Lindsay J. Bawden, Rita Figueiredo, Rajeevkumar Tawar, Katherine Wiseman, Emma Henderson, Sec Julie Hoong, Veronica Gonzalez, Hemza Ghadbane, David E.O. Knight, Ronan O’Dwyer, David X. Overton, Christina M. Lucato, Nicola M.G. Smith, Carlos R. Reis, Keith Page, Lorraine M. Whaley, Michelle L. McCully, Stephen Hearty, Tara M. Mahon, Peter Weber

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Figure 7

PD-1 antibody ImmTAAI molecules inhibit autoreactive human CD8+ T cells and protect target cells from T cell killing.

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PD-1 antibody ImmTAAI molecules inhibit autoreactive human CD8+ T cells ...
(A) Schematic of the EndoC-β Red cell–CD8+ T cell clone killing assay. (B and D) PPI6–14-HLA-A2-specific autoreactive T cell clones 4b (B) or 12b (D) were added to EndoC-β Red cells in the presence of PPI antibody or gp100 PD-1 antibody ImmTAAI titrations or TCR only controls. PD-L1–transduced EndoC-β Red target cells with or without anti–PD-L1 blocking antibody were used as additional controls. For each sample EndoC-β Red target cell number, relative to cells at (t = 0) was measured over time by imaging and growth curves generated. AUC was calculated for each curve and EC50 data generated by plotting AUC over ImmTAAI concentration (representative data from 3 independent experiments). (C and E) Supernatants were collected from the killing assays at 24 hours. IFN-γ levels were measured by MSD ELISA, and dose-response curves were plotted to generate EC50 values. Nonstimulated T cells alone were assessed as additional controls (n = 2, data are plotted as mean ± SD and representative of 3 independent experiments).