Extracellular vesicles derived from lung cancer cells promote the progression of lung cancer by delivering miR-151a-5p.

Extracellular vesicles (EVs) participate in the occurrence and development of lung cancer. MiR-151a-5p has been reported to be highly expressed in the tumor tissues of lung cancer. The aim of this work was to investigate whether EVs can affect lung cancer progression by delivering miR-151a-5p. In this work, we found that miR-151a-5p was highly expressed in serum of lung cancer patients. Up-regulation of miR-151a-5p and down-regulation of Nedd4-binding partner-1 (N4BP1) were observed in lung cancer cell lines. The expression of miR-151a-5p was also increased in H520-derived EVs. H520-derived EVs promoted cell proliferation, inhibited apoptosis of H520 cells by delivering miR-151a-5p. EVs containing miR-151a-5p repressed E-cadherin expression and elevated N-cadherin and Vimentin expression to impede epithelial-mesenchymal transition (EMT) of H520 cells. Additionally, the interaction between miR-151a-5p and N4BP1 was verified by luciferase reporter assay, showing that miR-151a-5p interacted with N4BP1. MiR-151a-5p repressed N4BP1 expression by interacting with N4BP1. EVs containing miR-151a-5p promoted malignant phenotypes of H520 cells by targeting N4BP1. Finally, a tumor-bearing mouse model was constructed by inoculation of H520 cells with miR-151a-5p overexpression or knockdown. Overexpression of miR-151a-5p accelerated tumor growth of lung cancer in vivo, and repressed N4BP1 expression in the tumor tissues. Knockdown of miR-151a-5p caused opposite results. In conclusion, this work demonstrated that lung cancer cell-derived EVs secreted miR-151a-5p to promote cell proliferation, and inhibit apoptosis and EMT of lung cancer cells by targeting N4BP1, thereby accelerating lung cancer progression. Thus, this study suggests that EVs-derived miR-151a-5p may be a potential target for lung cancer treatment.