Abstract

Background: Long non-coding RNA actin filament-associated protein1-antisense RNA 1 (AFAP1-AS1) was confirmed to be associated with tumorigenesis. However, the role of AFAP1-AS1 in breast cancer was little known. Materials and Methods: Quantitative real-time polymerase chain reaction (qRT-PCR) was used to detect the levels of AFAP1-AS1, microRNA-497-5p (miR-497-5p), and Septin 2 (SEPT2) in breast cancer tissues and cells. The cell proliferation, migration, and apoptosis were tested by Methylthiazolyldiphenyl-tetrazolium bromide (MTT), Transwell and Flow cytometry assays, respectively. The targeting relationship between genes was predicted by StarBase v.3.0 and confirmed by dual-luciferase reporter assay. Pearson's correlation coefficient was applied to examine the correlation between the two groups. SEPT2 protein expression was evaluated by Western blot. Xenograft models were established to investigate the role of AFAP1-AS1 knockdown in vivo. Results: AFAP1-AS1 was upregulated in breast cancer tissues and cells, and AFAP1-AS1 knockdown could hinder proliferation and migration of breast cancer cells, and contribute to cell apoptosis. MiR-497-5p, which was downregulated in breast cancer, was verified to be a target of AFAP1-AS1 and inversely correlated with AFAP1-AS1 expression. SEPT2, as a target gene of miR-497-5p, was negatively regulated by miR-497-5p and positively correlated with AFAP1-AS1 expression. Importantly, AFAP1-AS1 could upregulate SEPT2 expression by sponging miR-497-5p, and modulate cell progression by regulation of the miR-497-5p/SEPT2 axis in breast cancer. Conclusion: AFAP1-AS1 knockdown repressed the progression of breast cancer cells by sponging miR-497-5p and downregulating SEPT2.

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