Abstract
Lymphocyte activation gene 3 (LAG-3) is a negative immune checkpoint and a key regulator of immunehomeostasiswith multiple biological activities related to T-cell functions. Fibrinogen-likeprotein 1(FGL1) is a major LAG-3 functional ligand that is upregulated in various human cancers. LAG-3 positive T cells bind FGL1 expressed by cancer cells, which inhibits T-cell activation and cytokine secretion via indirect blocking of T cell receptor (TCR) signaling. High expression of LAG-3 and FGL1 in patients with solid tumors is associated with drug resistance and decreased survival in response to FDA-approved immune checkpoint inhibitors. Therefore, targeting the LAG-3/FGL1 pathway represents a promising therapeutic strategy to maximize the number of patients benefiting from checkpoint blockade therapy. However, there are no small molecules in existence that target LAG-3/FGL1 interaction. Herein, we report a time-resolved fluorescence resonance energy transfer (TR-FRET) assay to evaluate the ability of small molecules to inhibit LAG-3/FGL1 interaction. We further demonstrate the implementation of the developed assay in screening chemical libraries of small molecules from the NCI Diversity Set VII, FDA-approved drugs, and a focused library of NF-κB modulators. This work will pave the way for drug discovery efforts focused on therapeutic targeting of LAG-3/FGL1 interaction using small molecules.
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