Overcoming MET-targeted drug resistance in MET-amplified lung cancer by aurora kinase B inhibition

Abstract

MET-targeted therapies are the most effective treatment for patients with MET-amplified lung cancer. However, acquired drug resistance is a significant challenge in MET-amplified lung cancer treatment. This study aimed to discover an effective treatment strategy for overcoming MET-targeted drug resistance. We first established a lung cancer cell line resistant to MET tyrosine kinase inhibitor (MET-TKI) (H1993 PR-S2) from MET-amplified lung cancer cells (H1993). High-throughput screening using an anti-cancer compound library identified Aurora Kinase B (AURKB) inhibitor as a potent agent suppressing H1993 PR-S2 cell viability. In these resistant cells, p-MET expression was markedly decreased, while p-AURKB was significantly increased. Furthermore, STAT3-activated gene signatures were enriched in H1993 PR-S2 cells, and p-STAT3 expression was closely linked to AURKB. The AURKB overexpression induced p-STAT3 activation in the parental cells, whereas the AURKB knockdown reduced p-STAT3 expression in the H1993 PR-S2 cells. The resistant cells showed increased BCL2 gene expression, and STAT3-BCL2 expression was highly suppressed by AURKB inhibitor. However, MET-TKI sensitivity was not enhanced by STAT3 or BCL2 knockdown in H1993 PR-S2 cells. Additionally, the elevated expression of cleavage-caspase3 and the G2/M phase arrest were observed at lower concentrations of AURKB inhibitor in the H1993 PR-S2 cells. AURKB inhibitor also showed potent anti-tumor activity against the H1993 PR-S2 tumor xenografts. Finally, we confirmed the upregulated AURKB and p-STAT3 expression in posttreatment tumors of advanced MET-amplified lung cancer patient who experienced acquired resistance to MET-targeted drugs. These findings suggest AURKB is a potential druggable target for MET-TKI-resistant METamplified lung cancer treatment.