Berberine modulates ovarian cancer autophagy and glycolysis through the LINC01123/P65/MAPK10 signaling axis.

BACKGROUND

Berberine, a readily accessible natural compound known for its ease of synthesis and low toxicity, exhibits anti-tumor properties by modulating inflammatory responses. Recent studies have revealed that berberine can also treat malignant tumors by influencing tumor metabolic reprogramming, making it a potential candidate for metabolic therapy in ovarian cancer.

METHODS

The anti-proliferative and anti-metastatic effects of berberine on ovarian cancer cells were investigated using CCK-8 assays, scratch assays, EDU proliferation assays, and assays related to glycolysis and autophagy. Differentially expressed lncRNAs in ovarian cancer were identified using data from the TCGA database. A specific lncRNA's role was delineated through RNA pulldown assays, silver staining, mass spectrometry analysis, CHIP assays, and immunoprecipitation experiments, focusing on its involvement in glycolysis and autophagy regulation in ovarian cancer. Additionally, the inhibitory mechanism of berberine on ovarian cancer cells was validated through cell thermal shift assays and cycloheximide protein degradation experiments to confirm its interaction with key targets.

RESULTS

In vitro experiments revealed that berberine reduces glycolysis and autophagy levels, leading to the inhibition of ovarian cancer cell proliferation and metastasis. Bioinformatics analysis of TCGA data identified LINC00123 as associated with poor prognosis in ovarian cancer. Experimental validation, including RNA pulldown assays, confirmed that the LINC00123/P65/MAPK10 signaling axis regulates glycolysis and autophagy in ovarian cancer. Furthermore, at the molecular level, berberine inhibits the interaction between LINC00123 and P65, thereby reducing P65 protein stability and impeding its transcriptional regulation of downstream MAPK10. These findings were further validated in animal models.

CONCLUSION

Our study highlights berberine's dual benefits of anti-inflammatory effects and inhibition of ovarian cancer proliferation and metastasis by modulating autophagy and glycolysis levels. Mechanistically, berberine targets the LINC00123/P65/MAPK10 signaling pathway to regulate glycolysis and autophagy in ovarian cancer. These insights not only expand the potential of berberine in ovarian cancer therapy but also provide new targets and therapeutic strategies for metabolic therapy in this cancer type.