T Cell Antigen Discovery using Signaling and Antigen-presenting Bifunctional Receptors (SABRs)

Abstract

Checkpoint inhibitors, cancer vaccines, and adoptive cell therapy exploit T cell mediated immune responses to cancers. Discovering the exact antigens targeted by T cell responses is important for their efficacy. Antigen discovery for 'orphan' T cells or TCRs has been a challenging prospect due to high number of possible pMHC specificities. Several current approaches to decipher antigen specificities require prior knowledge of antigen sequences, are unable to scale up, or require production of soluble TCRs. To overcome these drawbacks, we have developed chimeric receptors called Signaling and Antigen-presenting Bifunctional Receptors (SABRs) that allow identification of antigen-presenting cells. SABRs present display pMHC on their extracellular domain, which is recognized by an orphan TCR. Upon recognition, SABRs initiate signaling in the presenting cell using a CD3zeta signaling domain. We transduced reporter cells with SABRs presenting HLA-A2-restricted epitopes from MelanA and NY-ESO-1, and co-incubated them with target cells expressing their cognate TCRs, which resulted in signal transduction only upon correct pMHC-TCR pairing, allowing the presenting cells to express GFP. Second, we showed that SABRs displaying independently expressed peptide and MHC could function similarly. These receptors could present pulsed peptides or endogenously expressed proteins, allowing the uncoupling of peptide and MHC, while retaining their signaling capability. We are currently testing the use of SABR-based antigen libraries to identify novel antigenic specificities targeted by T cells in cancers, infectious diseases, and autoimmune diseases.

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