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Celastrus orbiculatus Extract Inhibits the Invasion and Migration of Human Gastric Cancer Cells in the Hypoxia Microenvironment
- Source: Anti-Cancer Agents in Medicinal Chemistry (Formerly Current Medicinal Chemistry - Anti-Cancer Agents), Volume 22, Issue 18, Nov 2022, p. 3125 - 3135
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- 01 Nov 2022
Abstract
Background: Gastric cancer is a common global disease. So far, the best choice for diagnosis and treatment of gastric cancer includes surgical resection, chemotherapy, and other targeted drug therapies; however, the overall survival rate of patients with gastric cancer is still very low. The hypoxic microenvironment facilitates tumor cells to develop tolerance to chemotherapy and radiotherapy and promotes the early invasion and metastasis of various tumors. Celastrus Orbiculatus extract (COE) has shown inhibitory activities against a variety of tumor cells. In this study, we found that COE could inhibit the invasion and migration of gastric cancer cells by inhibiting epithelial-mesenchymal transformation (EMT) in the hypoxia microenvironment. Methods: CoCl2 was first diluted to various concentrations and then used to treat MKN28 and AGS cells. The MTT (thiazolyl blue) assay was used to evaluate cell proliferation. The transwell assay was used to measure the invasion and migration abilities of the cells. Wound healing assays were used to detect the healing ability of the cells. Western blotting was used to assess the effects of COE on the expression of EMT and matrix metalloproteinase (MMP) signaling pathway-related proteins. Results: We found that gastric cancer cells showed stronger proliferation, invasion, and metastasis in the hypoxia microenvironment. COE inhibited the migration and invasion of AGS and MKN28 cells in both hypoxic and normoxic environments. Additionally, COE decreased the expression of EMT and MMP signaling pathway-related proteins in gastric cancer cells. Conclusion: Therefore, it can be concluded that COE suppresses the migration and invasion of gastric cancer cells by inhibiting EMT and MMP in the hypoxia microenvironment.