Quercetin and Its Fermented Extract as a Potential Inhibitor of Bisphenol A-Exposed HT-29 Colon Cancer Cells' Viability.
Nataly García-GutiérrezGabriel Luna-BárcenasGuadalupe Herrera-HernándezRocio Campos-VegaSara Julietta Lozano-HerreraAna Alicia Sánchez-TusiéPablo García-SolísHaydé Azeneth Vergara-CastañedaPublished in: International journal of molecular sciences (2023)
Bisphenol A (BPA) promotes colon cancer by altering the physiological functions of hormones. Quercetin (Q) can regulate signaling pathways through hormone receptors, inhibiting cancer cells. The antiproliferative effects of Q and its fermented extract (FEQ, obtained by Q gastrointestinal digestion and in vitro colonic fermentation) were analyzed in HT-29 cells exposed to BPA. Polyphenols were quantified in FEQ by HPLC and their antioxidant capacity by DPPH and ORAC. Q and 3,4-dihydroxyphenylacetic acid (DOPAC) were quantified in FEQ. Q and FEQ exhibited antioxidant capacity. Cell viability with Q+BPA and FEQ+BPA was 60% and 50%, respectively; less than 20% of dead cells were associated with the necrosis process (LDH). Treatments with Q and Q+BPA induced cell cycle arrest in the G0/G1 phase, and FEQ and FEQ+BPA in the S phase. Compared with other treatments, Q positively modulated ESR2 and GPR30 genes. Using a gene microarray of the p53 pathway, Q, Q+BPA, FEQ and FEQ+BPA positively modulated genes involved in apoptosis and cell cycle arrest; bisphenol inhibited the expression of pro-apoptotic and cell cycle repressor genes. In silico analyses demonstrated the binding affinity of Q > BPA > DOPAC molecules for ERα and ERβ. Further studies are needed to understand the role of disruptors in colon cancer.
Keyphrases
- cell cycle arrest
- cell death
- pi k akt
- signaling pathway
- cell cycle
- cell proliferation
- anti inflammatory
- oxidative stress
- ms ms
- gene expression
- poor prognosis
- endothelial cells
- fatty acid
- transcription factor
- copy number
- breast cancer cells
- liquid chromatography
- epithelial mesenchymal transition
- high resolution
- diabetic rats
- lactic acid
- endoplasmic reticulum
- high glucose
- stress induced