Design and Validation of the First-in-Class PROTACs for Targeted Degradation of the Immune Checkpoint LAG-3

Lymphocyte activation gene-3 (LAG-3) is an inhibitory immune checkpoint receptor that plays a central role in T cell exhaustion and immune evasion in cancer. While monoclonal antibodies targeting LAG-3 have entered clinical development, small molecule approaches remain largely unexplored. Here, we report the design and validation of the first-in-class PROTACs for targeted degradation of LAG-3. In this study, we repurposed a LAG-3-binding small molecule identified through DNA-encoded library (DEL) screening as the targeting ligand for a series of CRL4 ^CRBN -based PROTACs designed with varied linker lengths. Western blot analysis in Raji-LAG3 cells demonstrated that LAG-3 PROTAC-1 and LAG-3 PROTAC-3 induce potent, dose-dependent degradation of LAG-3, with DC ₅₀ values of 274 nM and 421 nM, respectively. Molecular docking and molecular dynamics (MD) simulations revealed the LAG-3 binding mode of designed PROTACs and provided structural insights into PROTAC-mediated ternary complex formation. Collectively, this work establishes a proof-of-concept for chemical degradation of LAG-3 for the first time and paves the way for novel immunotherapeutic strategies.