AI Article Synopsis
- Crocin nanoparticles (CRO-NPs) were developed to improve the bioavailability and anticancer effects of crocin, a saffron antioxidant, when combined with doxorubicin (DOX) chemotherapy on liver cancer and non-cancerous cells.
- Characterization of CRO-NPs showed better stability and a much smaller size, resulting in significantly greater antitumor effects against HepG2 cells compared to native crocin.
- The study found that CRO-NPs increased apoptosis in cancer cells and led to cell cycle arrest, while also enhancing the expression of key apoptotic and autophagic genes when used with DOX, without causing harm to non-cancerous WI38 cells.
Article Abstract
Objective: Crocin (CRO), the primary antioxidant in saffron, is known for its anticancer properties. However, its effectiveness in topical therapy is limited due to low bioavailability, poor absorption, and low physicochemical stability. This study aimed to prepare crocin nanoparticles (CRO-NPs) to enhance their pharmaceutical efficacy and evaluate the synergistic effects of Cro-NPs with doxorubicin (DOX) chemotherapy on two cell lines: human hepatocellular carcinoma cells (HepG2) and non-cancerous cells (WI38).
Methods: CRO-NPs were prepared using the emulsion diffusion technique and characterized by transmission electron microscopy (TEM), scanning electron microscopy (SEM), Zeta potential, and Fourier transform infrared spectroscopy (FT-IR). Cell proliferation inhibition was assessed using the MTT assay for DOX, CRO, CRO-NPs, and DOX+CRO-NPs. Apoptosis and cell cycle were evaluated by flow cytometry, and changes in the expression of apoptotic gene (P53) and autophagic genes (ATG5 & LC3) were analyzed using real-time polymerase chain reaction.
Results: TEM and SEM revealed that CRO-NPs exhibited a relatively spherical shape with an average size of 9.3 nm, and zeta potential analysis indicated better stability of CRO-NPs compared to native CRO. Significantly higher antitumor effects of CRO-NPs were observed against HepG2 cells (IC50 = 1.1 mg/ml and 0.57 mg/ml) compared to native CRO (IC50 = 6.1 mg/ml and 3.2 mg/ml) after 24 and 48 hours, respectively. Annexin-V assay on HepG2 cells indicated increased apoptotic rates across all treatments, with the highest percentage observed in CRO-NPs, accompanied by cell cycle arrest at the G2/M phase. Furthermore, gene expression analysis showed upregulation of P53, ATG5, and LC3 genes in DOX/CRO-NPs co-treatment compared to individual treatments. In contrast, WI38 cells exhibited greater sensitivity to DOX toxicity but showed no adverse response to CRONPs.
Conclusion: Although more in vivo studies in animal models are required to corroborate these results, our findings suggest that CRO-NPs can be a potential new anticancer agent for hepatocellular carcinoma. Moreover, they have a synergistic effect with DOX against HepG2 cells and mitigate the toxicity of DOX on normal WI38 cells.
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| http://dx.doi.org/10.2174/0118715206327654240823074318 | DOI Listing |
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