Tivantinib inhibits the VEGF signaling pathway and induces apoptosis in gastric cancer cells with c-MET or VEGFA amplification.

Tivantinib has been described as a selective inhibitor of c-Met and is being studied in various types of cancer. In this study, we evaluated the effects of tivantinib on the suppression of gastric cancer (GC) cell migration and apoptosis. We also examined the mechanism of action of tivantinib by oncogenic pathway analysis. We applied an RNA-sequencing approach in 34 GC patients to identify oncogenes that are differentially expressed in GC tissues. To examine the inhibitory effect of tivantinib on GC cells, we conducted apoptosis analysis using an annexin V-APC/PI apoptosis detection kit and trans-well migration assay with human GC cell lines. For oncogenic pathway analysis, Western blot and quantitative real-time PCR analysis were used to detect the expression of proteins and genes before and after tivantinib exposure. In the RNA-sequencing analysis of 34 GC patients, c-Met and VEGFA genes were expressed and positively correlated with each other. Cell migration and apoptosis analysis demonstrated that tivantinib induced the best inhibition effect in SNU620, MKN45 (carries VEGFB mutation), AGS, and MKN28 cells, but not in KATO III (carries VEGFB and VEGFC mutations) cells. Oncogenic pathway analysis showed that tivantinib, in addition to c-Met signaling pathway inhibition, also inhibits VEGF signaling and MYC expression in VEGFA-expressing GC cells. We found that tivantinib has anti-cancer activity not only in GC cells overexpressing c-Met but also in non-c-Met GC cells by inhibition of the VEGF signaling pathway.