Enhancing resveratrol pharmacokinetics and cytotoxicity in ovarian cancer cells via nanostructured lipid carriers

Resveratrol (Res), a potent nutraceutical, holds promise in ameliorating cancer and catalyzing breakthroughs in cancer therapy. Despite numerous preclinical studies on its anticancer activity, translational research progress remains limited. Poor pharmacokinetics and low potency are primary bottlenecks of Res therapy. In this study, we aimed to enhance the pharmacokinetic profile of Res in a rat model and assess its cytotoxicity against human ovarian cancer cells by developing Res loaded Nanostructured Lipid Carriers (Res-NLCs). The Res-NLCs were synthesized using the solvent injection method, featuring a size of 177 nm, a PDI of 0.25, and an entrapment efficiency exceeding 80%. The formulation exhibited stability for three months at 4 degrees C and 40 degrees C. Cytotoxicity assessments using the MTT assay and cellular uptake studies on human ovarian cancer cells (PA1 and SKOV3 luc) revealed significantly superior time-dependent cytotoxic effects and cellular accumulation of Res-NLCs compared to free Res. Pharmacokinetic studies of intravenously administered Res in NLCs demonstrated prolonged plasma levels of Res for at least 48 h. Remarkably, Res-NLCs exhibited approximately 15- and 5-fold improvements in AUC and elimination half-life (t1/2), respectively, compared to Res in solution in rats. Moreover, Res tissue distribution from Res-NLCs in rats showed significantly higher accumulation in the liver, lungs, and ovaries over 48 h, underscoring the potential for targeted therapy. In conclusion, NLCs effectively mitigated premature reduction of Res in the bloodstream, prolonged circulation period, and enhanced tissue accumulation. These findings suggest promising prospects for improving therapeutic outcomes in ovarian cancer therapy using Res-NLCs.