Abstract
BackgroundTumors can employ different mechanisms to evade immune surveillance and function. Overexpression of co-inhibitory ligands that bind to checkpoint molecules on the surface of T-cells can greatly impair the function of latter. TIGIT (T cell immunoreceptor with Ig and ITIM domains) is such a co-inhibitory receptor expressed by T and NK cells which, upon binding to its ligand (e.g., CD155), can diminish cytokine production and effector function. Additionally, the absence of positive co-stimulation at the tumor site can further dampen T-cell response.MethodsAs T-cell genetic engineering has become clinically-relevant in the recent years, we devised herein a strategy aimed at enhancing T-cell anti-tumor function by diverting T-cell coinhibitory signals into positive ones using a chimeric costimulatory switch receptor (CSR) composed of the TIGIT exodomain fused to the signaling domain of CD28.ResultsAfter selecting an optimized TIGIT-28 CSR, we co-transduced it along with tumor-specific TCR or CAR into human T-cells. TIGIT-28-equipped T-cells exhibited enhanced cytokine secretion and upregulation of activation markers upon co-culture with tumor cells. TIGIT-28 enhancing capability was also demonstrated in an original in vitro model of T-cell of hypofunction induction upon repetitive antigen exposure. Finally, we tested the function of this molecule in the context of a xenograft model of established human melanoma tumors and showed that TIGIT-28-engineered human T-cells demonstrated superior anti-tumor function.ConclusionOverall, we propose that TIGIT-based CSR can substantially enhance T-cell function and thus contribute to the improvement of engineered T cell-based immunotherapy.
Highlights
Tumors can employ different mechanisms to evade immune surveillance and function
We designed and evaluated two TIGIT-based costimulatory switch receptor (CSR) as described below. We hypothesized that such chimeric receptor could successfully convey positive signals to T cells following binding to TIGIT ligands
These TIGIT-based chimeras were constructed by fusing the extracellular domain of TIGIT to intracellular portion of the CD28 molecule (TIGIT-28) using a transmembrane (TM) portion derived from either TIGIT or CD28 (Fig. 1a)
Summary
Tumors can employ different mechanisms to evade immune surveillance and function. Overexpression of co-inhibitory ligands that bind to checkpoint molecules on the surface of T-cells can greatly impair the function of latter. TIGIT (T cell immunoreceptor with Ig and ITIM domains) is such a co-inhibitory receptor expressed by T and NK cells which, upon binding to its ligand (e.g., CD155), can diminish cytokine production and effector function. To the antagonistic relationship of CTLA-4/ CD28 with their ligands, TIGIT competes with a “positive” (stimulatory) receptor CD226 ( known as DNAM1) Both can bind to either of the two following ligands, CD155 and CD112, though TIGIT does so with. TIGIT activation can reduce NK cell cytotoxicity [21] and CTL proliferation and cytokine production via SHIP1-mediated mechanisms causing downstream inhibition of NF-kB, PI3K and MAPK pathways, and thereby diminishing the effectiveness of the cellular immune response [10, 13, 22, 23].
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