Discovery of Fulzerasib (GFH925) for the Treatment of KRAS G12C-Mutated Solid Tumors

RAS mutations are the most prevalent genetic alterations in human tumors, accounting for 30% of all cases. Among these mutations, KRAS G12C emerged as the first druggable target through covalent attachment, which locks the protein in its inactive state. Employing a structure-based drug design strategy, we identified fulzerasib (GFH925), which features a novel lactam-based tetracyclic naphthyridinone scaffold. This molecule demonstrates high in vitro potency and selectivity, favorable pharmacokinetic profiles across species, and significant in vivo antitumor efficacy in various cancer-related xenograft models, including intracranial tumors. Fulzerasib has recently received accelerated approval in China for adult NSCLC patients with the KRAS G12C mutation after prior systemic therapy.