Abstract

404 Background: Diffuse-type gastric cancers (DGC) typically have a poor prognosis related to their invasion and metastasis, in which the epithelial–mesenchymal transition (EMT) is the initiation step. ULK2 plays a role in the autophagy initiation, which might provide a survival advantage in cancer cells. Although knock-down of ULK2 reportedly induces autophagy and EMT in a lung cancer cell line, the mechanism of EMT via the downregulation of ULK2, as well as its clinical significance, remains yet unclear. The present study, therefore, aims at clarifying this mechanism and its clinical significance in gastric cancers. Methods: We examined ULK2 mRNA expression in gastric cancer tissues and normal gastric tissues of healthy people. The effects of knock-downed ULK2 were examined in two gastric cancer cells, which were investigated in terms of their gene expression changes by the mRNA microarray. Furthermore, to investigate the carcinogenic process from normal gastric epithelial cells, we used RGE cells, which were conditionally immortalized normal gastric epithelial cells developed from a transgenic rat. Results: ULK2 mRNA expression of gastric cancer tissues was significantly lower than H. pylori-negative normal tissues. ULK2 was strongly expressed in normal tissues and intestinal-type gastric cancers (IGC) but was scarcely expressed in DGC by immunohistochemical staining. Furthermore, we found that the ULK2 methylation level of gastric cancer tissues was higher than H. pylori-negative normal tissues and IGC. Then, we validated whether knock-down of ULK2 could induce autophagy, cell migration, and EMT in NUGC3 and MKN45 cells. Using mRNA microarray analysis, we confirmed that knock-down of ULK2 changed expressions of oncogenic genes associated with cell migration and EMT. Autophagy inhibitor suppressed cell migration and EMT induced by knock-down of ULK2 in NUGC3 and MKN45. Additionally, we found that knock-down of Ulk2 induced apoptosis in normal gastric epithelial cells. Conclusions: Methylation silencing of ULK2 in gastric cancer cells could induce cell migration and EMT by means of autophagy induction, causing transformation to poorly differentiated cancers.

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