Abstract
Lymphocyte activation gene-3 (LAG-3) has emerged as a critical immune checkpoint receptor primarily modulating T-cell responses through distinct immune regulatory mechanisms. Recent advances have elucidated LAG-3's complex receptor-ligand interactions, structure-function relationships, and unique signaling pathways. LAG-3 antagonistic antibodies, such as relatlimab approved for melanoma, have shown promising efficacy with favorable toxicity profiles, though only in combinational therapies. While LAG-3's role in oncology continues to expand, it is also gaining recognition as a potential therapeutic target for other disorders. This review highlights recent progress in understanding LAG-3's molecular features, ligand regulation, signaling, and immune modulation mechanisms. Additionally, it explores emerging questions in oncology and the exciting potential of therapies targeting the LAG-3 pathway in autoimmune disease. A deeper understanding of LAG-3's confounding biology and disease relevance would drive the development of novel immunotherapies across broader clinical indications.