The morbidity and mortality rates of hepatocellular carcinoma (HCC) are high and continue to increase. The antitumor effects of single therapies are limited because of tumor heterogeneity and drug resistance, and the lack of real-time monitoring of tumor progression during the treatment process leads to poor therapeutic outcomes. Therefore, novel nanodelivery platforms combining tumor therapy and diagnosis have garnered extensive attention. In this study, we developed a multifunctional nanodelivery vector, LPSD-DOX/siRNA, which was loaded with oleic acid-modified superparamagnetic iron oxide nanoparticles (OA-SPION) and the antitumor drug doxorubicin (DOX), further modified by DOTAP to carry small interfering RNA targeting phosphatidylinositol proteoglycan-3 (Glypican-3, GPC3) (siRNA-GPC3). These components were utilized for the combined treatment of HCC and tumor monitoring with magnetic resonance imaging. LPSD-DOX/siRNA exhibited high drug loading, high gene transfection efficiency, and low toxicity. Pharmacokinetic and in vivo distribution experiments showed that LPSD-DOX/siRNA significantly prolonged the circulation time of DOX and enhanced drug accumulation at the tumor site. Magnetic resonance imaging demonstrated that LPSD-DOX/siRNA can serve as a T2 imaging contrast agent to enhance the imaging contrast between the tumor site and other tissues and facilitate the imaging monitoring of tumor tissues. Antitumor experiments revealed that the effects of DOX were promoted by inhibiting the expression of GPC3 protein in HepG2 cell-transplanted tumors, with increased tumor apoptosis. In conclusion, LPSD-DOX/siRNA serves as a promising strategy for combination therapy and monitoring of HCC, with significant potential in antitumor therapy.
Keywords: glypican-3; hepatocellular carcinoma; magnetic resonance imaging; small interfering RNA; superparamagnetic iron oxide nanoparticles; synergistic therapy.