NCI-N87, demonstrating probably the most HER2 amplification from the three cell lines examined, displayed a 70% growth inhibition on the lowest concentration of lapatinib when when compared with SNU-216 and SNU-16. In contrast, SNU-216, using a modest amplification of HER2, required >5-fold the concentration of lapatinib utilized in NCI-N87 to attain the same degree of growth inhibition. SNU-16, the handle cell line with no HER2 amplification, was, in the three GC cell lines, the least sensitive for the effects of lapatinib, except at higher concentrations. Activation of MET RTK by HGF can rescue HER2+ GC cells from lapatinib Inhibition supplier Bortezomib Figure 2A displays that MET was not amplified in NCI-N87, SNU-216 and SNU-16, and that all 3 GC cell lines expressed the MET receptor. To find out no matter whether MET activation can rescue the HER2-amplified GC cell lines from lapatinib-induced development inhibition, NCI-N87 & SNU-216 were treated with lapatinib and increasing concentrations in the MET ligand HGF for 24 hours. The results showed that, at concentrations of 50ng/ml and 25ng/ml HGF, the development inhibitory effects of lapatinib were reversed . We then assessed other growth factors for their ability to rescue gastric cancer cells from lapatinib.
Receptors for FGF-3 and IGF-1 are present on NCI-N87 and SNU- Acetanilide 216 , and cell proliferation assays with these growth factors and lapatinib were then performed. As seen in Figure 2C, only HGF showed a significant abrogation of lapatinib inhibition in NCI-N87, while both FGF-3 and HGF were able to rescue inhibited SNU-216. A two-fold increase in the concentrations of FGF-3 and IGF-1 did not alter the results . Addition of FGF-3 to lapatinib-treated gastric cancer cells could not restore MAPK signaling to the identical degree as HGF while IGF-1 has no noticeable effects on the phosphorylation of MAPK . IGF-1 and FGF-3 could not restore AKT phosphorylation in NCI-N87 as effectively as HGF, and both FGF-3 and IGF-1 modestly restore AKT phosphorylation in SNU-216. MET confers resistance to lapatinib inhibition by restoring MAPK & AKT signaling HER2, EGFR and MET receptors, as well as MAPK and AKT, were dephosphorylated in lapatinib-treated GC cells . The degradation on the MAPK signaling pathway presumably induced development inhibition in both GC cell lines via G1 cell cycle arrest, demonstrated by an increased proportion of cells in the G1 phase as measured by flow cytometry . Correspondingly, the percentage of cells in S phase decreased from 21% to 6% in NCI-N87 cells, and from 35% to 20% in SNU-216. We observed an increase in the number of cells in the sub G1 population and cleaved caspase-3 proteins, indicating that lapatinib induced apoptosis in NCI-N87 as well . The addition of HGF to lapatinib-treated GC cells phosphorylated MET RTK and restored MAPK and AKT signaling .