Cancer Cell International (Feb 2025)
miR-485-5p/NQO1 axis drives colorectal cancer progression by regulating apoptosis and aerobic glycolysis
Abstract
Abstract Background Cancer cells undergo a metabolic shift termed the Warburg effect, transitioning from oxidative phosphorylation to aerobic glycolysis and promoting rapid tumor proliferation. Quinone oxidoreductase (NQO1), a cytosolic flavoprotein, is important for reprogramming cancer cell metabolism. Therefore, NQO1’s function in aerobic glycolysis and impact on colorectal cancer (CRC) development and progression was investigated. Methods The clinical significance of NQO1 was evaluated by analyzing online databases and was substantiated in CRC specimens. NQO1’s influence on proliferation, epithelial-mesenchymal transition (EMT), metastasis, apoptosis, and glycolytic pathways in CRC cells was evaluated using in vitro and in vivo experiments. The molecular interactions between NQO1 and microRNA-485-5p (miR-485-5p) were ascertained via quantitative reverse transcription PCR and dual luciferase reporter assays. The molecular mechanisms underlying the miR-485-5p/NQO1 axis and its effects on progression of malignancy and aerobic glycolysis in CRC cell lines were investigated. Results NQO1 promoted CRC cell proliferation and EMT, augmented their metastatic potential, and suppressed their apoptosis. The NQO1 overexpression-mediated enhancement of glycolytic activity is implicated in the increased proliferation, EMT, and metastatic abilities of, and reduced apoptosis in, CRC cells. Further, miR-485-5p may inhibit the proliferative and invasive traits of CRC cells by directly targeting the 3′ untranslated region of NQO1 mRNA. Conclusions miR-485-5p/NQO1 signaling axis orchestrates aerobic glycolysis, thereby modulating CRC cell proliferation, metastasis, and apoptosis. Our study provides mechanistic perspectives regarding the role of NQO1 in CRC progression.
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