Abstract
Non–small cell lung cancer exhibits the highest rates of brain metastases (BMs) among all solid tumors, presenting a major clinical challenge. The development of novel therapeutic strategies targeting BMs is clearly needed. We identified a significant enrichment of MET amplification in lung adenocarcinoma (LUAD) BMs compared with primary LUAD and extracranial metastases in oncogene driver–negative patients. Of note, MET-amplified BMs were responsive to MET inhibitors in vivo, including models with acquired MET amplification at the time of metastasis. MET alterations (amplifications and/or mutations) were also more frequently detected in circulating tumor DNA from patients with LUAD BMs than in those without BMs. MET-altered BMs also demonstrated unique genomic features compared with non–MET-altered BMs. Transcriptomic analyses revealed that in contrast to MET WT BMs, MET-amplified BMs exhibited a more inflamed tumor microenvironment and displayed evidence of metabolic adaptation, particularly a reliance on glycolysis in contrast to OXPHOS in MET WT BMs. Furthermore, MET-amplified BMs demonstrated evidence of epithelial-mesenchymal transition signaling, including increased expression of TWIST1. Patients with MET-amplified BMs had significantly shorter overall survival. These findings highlight MET amplification as a critical driver of LUAD BMs, emphasizing its potential as a therapeutic target.
Authors
Timothy F. Burns, Sanja Dacic, Anish Chakka, Ethan Miller, Maria A. Velez, Ashwin Somasundaram, Saveri Bhattacharya, Autumn Gaither-Davis, Princey Devadassan, Jingxiao Jin, Vinod Kumar, Arjun Pennathur, Joanne Xiu, Matthew Oberley, Michael J. Glantz, Sonikpreet Aulakh, Uma R. Chandran, Riyue Bao, Curtis Tatsuoka, Laura P. Stabile
Graphical abstract
Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)