Self-associated molecular patterns mediate cancer immune evasion by engaging Siglecs on T cells.

First generation immune checkpoint inhibitors including anti-CTLA-4 and anti-PD-1 antibodies have led to major clinical progress, yet resistance frequently leads to treatment failure. Thus, new targets acting on T cells are needed. CD33-related Siglecs are pattern recognition immune receptors binding to a range of sialoglycan ligands, which appear to function as self-associated molecular patterns (SAMPs) that suppress autoimmune responses. Siglecs are expressed at very low levels on normal T cells, and these receptors were not yet considered as interesting targets on T cells for cancer immunotherapy. Here, we show an upregulation of Siglecs including Siglec-9 on tumor-infiltrating T cells from non-small cell lung (NSCLC), colorectal and ovarian cancer patients. Siglec-9 expressing T cells co-expressed several inhibitory receptors including PD-1. Targeting of the sialoglycan-SAMP/Siglec pathway in vitro and in vivo resulted in increased anti-cancer immunity. T cell expression of Siglec-9 in NSCLC patients correlated with a reduced survival, and Siglec-9 polymorphisms showed associations with the risk of developing lung and colorectal cancer. Our data identify the sialoglycan-SAMP/Siglec pathway as new potential target to improve T cell activation for immunotherapy.