Abstract

Smoking is one of the major environmental risk factors for lung cancer. In recent years, the role of long-chain noncoding RNAs (lncRNAs) in chemical carcinogenesis has attracted extensive research attention. In this study, we treated human bronchial epithelial cells with cigarette smoke extract (CSE) at a dose of 2 μg/ml to establish a malignantly transformed cellular model (16HBE-M). Screening of lncRNAs highly expressed in transformed cells via differential analysis revealed a crucial role of linc00152 in CSE-induced malignant transformation. The linc00152 serum level in CSE-exposed individuals was increased in a dose-dependent manner and its high expression associated with metastasis and proliferation of lung cancer tissue. In malignantly transformed 16HBE-M cells, linc00152 was involved in regulation of cell adhesion, epithelial transition and other malignant phenotypes, which in turn, affected in vivo metastasis. Interference with linc00152 expression led to G1/S arrest and inhibition of proliferation of 16HBE-M and H1299 cells. Furthermore, linc00152 promoted cyclin D1 expression and G1/S transition by functioning as an endogenous competitive RNA targeting miR-193b. Our collective findings supported a critical regulatory role of linc00152 in cell cycle alterations and abnormal proliferation in CSE-induced malignant transformation of human bronchial epithelial cells.

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