Background: Lung cancer is the leading cause of cancer-related deaths worldwide. Tanshinones are a group of compounds in Salvia miltiorrhiza. Although the effects of tanshinone I (T1) and tanshinone IIA (T2A) are widely concerned, the mechanisms of T1 and T2A in lung cancer is rarely studied.
Experimental procedure: Xenograft tumor growth was performed to detect the role of T1/T2A in vivo. Next-generation sequencing of miRNA expression profiles in T1/T2A-treated A549 cells showed that T1/T2A upregulated the expression of the let-7 family. Then, let-7a-5p and its downstream target gene BORA were identified as the research objects in this paper. Mechanistically, we examined the interplay between miR-let-7 and BORA through the dual-luciferase reporter assay. Finally, the potential regulatory role of T1/T2A on Lin28B and MYC was explored.
Results: This study found that the let-7 family was significantly up-regulated via "Next-generation" sequencing (NGS) in the T1/T2A-treated A549 cell line, while BORA was downregulated. BORA was confirmed as a direct target of let-7. LncRNA MYCLo-5 was up-regulated after treatment with tanshinones. Knockdown of MYCLo-5 promoted the cell cycle and proliferation of non-small cell lung cancer (NSCLC) cells.
Conclusions: This study explored the effects of tanshinone T1 and T2A on NSCLC in vitro and in vivo, revealing the T1/T2A-let-7/BORA/MYCLo-5 regulatory pathway, which provided new insights for lung cancer treatment.
Keywords: BORA; Let-7; MYC/MYCLo-5; NSCLC; T1/T2A.
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