Background
Activation of ALK leads to a high level of aerobic glycolysis related to crizotinib insensitivity in anaplastic lymphoma kinase-positive non-small cell lung cancer (ALK+ NSCLC). The strategy and mechanism of glycolysis inhibition in sensitizing ALK+ NSCLC cells to crizotinib requires further investigation.
Conclusions
These results indicate that HK2-mediated glycolysis plays a crucial role in the increased tolerance of ALK+ NSCLC cells to crizotinib. 2DG may sensitize ALK+ NSCLC to crizotinib via suppression of HK2-mediated glycolysis and the AKT/mTOR signaling pathway.
Methods
The levels of glycolysis in H3122 and H2228 cells were evaluated through detection of glucose consumption and lactate production. MTT assay was used to explore the effects of glycolytic inhibitors on crizotinib sensitivity, and the potential mechanism of action were detected by colony formation, Ki67 incorporation assay, transwell assay, small interfering RNA technology and western blot analysis.
Results
ALK+ NSCLC cells exhibited significantly higher levels of glycolysis compared to ALK- NSCLC cells. Long-term exposure to crizotinib could decrease the sensitivity of ALK+ NSCLC cells to crizotinib via increasing the levels of glycolysis related to hexokinases II (HK2). Crizotinib in combination with glycolysis inhibitor 2-deoxy-D-glucose (2DG) synergistically inhibited proliferation, glycolysis, colony formation and invasion ability of ALK+ NSCLC cells. 2DG sensitization crizotinib might be associated with the inhibition of HK2-mediated glycolysis and P-ALK/AKT/mTOR signaling pathway in H3122 and H2228 cells. Conclusions: These results indicate that HK2-mediated glycolysis plays a crucial role in the increased tolerance of ALK+ NSCLC cells to crizotinib. 2DG may sensitize ALK+ NSCLC to crizotinib via suppression of HK2-mediated glycolysis and the AKT/mTOR signaling pathway.