Abstract
Pancreatic cancer is a high incidence, high degree of malignancy, and high mortality in the digestive system tumor. The incidence of pancreatic cancer in China has increased nearly six folds in the past 20 years, ranking fifth in the mortality rate of malignant tumors, so it is particularly important to actively explore clinical indicators with better diagnostic significance for pancreatic cancer. LncRNA performs an essential regulatory function in the occurrence, development, and metastasis of many kinds of tumors, playing both a carcinogenic role and a tumor suppressor gene. Here, we demonstrated the function and mechanism of LncRNA-XLOC_012370 in the development of pancreatic cancer. In our research, the abnormal upregulation of XLOC_012370 was observed in pancreatic cancer patients’ tumor tissues. XLOC_012370 was related to tumor stage, lymph node metastasis, and overall survival. Silencing of XLOC_012370 prevented the proliferation, migration, and invasion via the NF-κB signal pathway. Further, miR-140-5p was identified as the target and downstream of XLOC_012370 and involved in pancreatic cancer progression. In vivo, knockdown of XLOC_012370 inhibited tumor growth via the NF-κB signal pathway. In conclusion, lncRNA-XLOC_012370 is closely related to some malignant clinicopathological features and prognosis of pancreatic cancer. Thus the miR-140-5p/NF-κB signal pathway might represent a promising treatment strategy to combat pancreatic cancer.
Highlights
The onset of pancreatic cancer is hidden, and its mortality ranks fourth among malignant tumors, and it is predicted that it will rise to second place by 2030 [1]
Research showed that the high expression of MALAT1 in pancreatic ductal adenocarcinoma was related to poor prognosis
Lu et al found that Gas5 was significantly decreased in pancreatic tumor tissues, while the expression of Gas5 in pancreatic cancer cell lines was considerably downregulation, suggesting that Gas5 is closely related to the occurrence of pancreatic cancer
Summary
The onset of pancreatic cancer is hidden, and its mortality ranks fourth among malignant tumors, and it is predicted that it will rise to second place by 2030 [1]. LncRNA MALAT1 is expressed in a variety of tissues and tumors, and it is a lncRNA closely related to growth in pancreatic cancer [6, 7]. Lu et al found that Gas was significantly decreased in pancreatic tumor tissues, while the expression of Gas in pancreatic cancer cell lines was considerably downregulation, suggesting that Gas is closely related to the occurrence of pancreatic cancer. Force expression of Gas significantly blocked PANC-1 cells development; after inhibiting the expression of Gas by RNA interference, the number of cells of G0/G1 phase decreased, and more cells enter in S phase, suggesting that Gas can regulate the cell cycle of pancreatic cancer cells and inhibit the invasion of cancer cells [9]
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