Abstract
ALK inhibitors effectively target EML4-ALK positive non-small cell lung cancer, but their effects are hampered by treatment resistance. In the present study, we asked whether ALK inhibition affects autophagy, and whether this may influence treatment response. Whereas the impact of targeted therapies on autophagic activity previously have been assessed by surrogate marker proteins such as LC3B, we here thoroughly examined effects on functional autophagic activity, i.e. on the sequestration and degradation of autophagic cargo, in addition to autophagic markers. Interestingly, the ALK inhibitor Ceritinib decreased mTOR activity and increased GFP-WIPI1 dot formation in H3122 and H2228 EML4-ALK+ lung cancer cells, suggesting autophagy activation. Moreover, an mCherry-EGFP-LC3B based assay indicated elevated LC3B carrier flux upon ALK inhibition. In accordance, autophagic cargo sequestration and long-lived protein degradation significantly increased upon ALK inhibition. Intriguingly, autophagic cargo flux was dependent on VPS34 and ULK1, but not LC3B. Co-treating H3122 cells with Ceritinib and a VPS34 inhibitor or Bafilomycin A1 resulted in reduced cell numbers. Moreover, VPS34 inhibition reduced clonogenic recovery of Ceritinib-treated cells. In summary, our results indicate that ALK inhibition triggers LC3B-independent macroautophagic flux in EML4-ALK+ cells to support cancer cell survival and clonogenic growth.
Highlights
Lung cancer accounts for the largest number of cancer deaths worldwide
We first aimed at determining the sensitivity of EML4-ALK positive H3122 and H2228 non-small cell lung cancer (NSCLC) cells to ALK inhibition
In agreement with previous data[18] we found H3122 (Fig. 1A, left panel) to be more sensitive to ALK inhibition than H2228 cells (Fig. 1A, right panel) and Ceritinib to be more potent than Crizotinib
Summary
Lung cancer accounts for the largest number of cancer deaths worldwide. It can be divided into small cell and non-small cell lung cancer (NSCLC)[1]. Ceritinib is a preferred alternative to Crizotinib, almost all patients develop resistance to Ceritinib[4] Another 2 nd generation ALK inhibitor, Alectinib, has been approved for first-line treatment of advanced ALK-positive NSCLC due to its superior activity in the CNS and that it may overcome resistance to Crizotinib. In advanced tumors, high autophagic activity may in some cases be proficient for the cancer cells as it can support survival under adverse conditions such as low nutrient and oxygen s upply[14, 15] Cancer therapy adds another complexity, as anti-cancer agents frequently modulate autophagy. The effect of anti-cancer drugs on autophagic activity in cancer cells and its role in treatment responses still remains largely unclear, and requires careful study
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