Hyaluronic acid-zein shell-core biopolymer nanoparticles enhance hepatocellular carcinoma therapy of celastrol via CD44-mediated cellular uptake.

Low concentrations or limited residence times in tumor tissues, making celastrol (Cel) difficult to exert significant therapeutic effects. Thus, we developed Zein/hyaluronic acid core-shell nanoparticles (Cel/Zein@HA NPs) for active targeted delivery of Cel via CD44 receptor over-expression on cancer cells, which may strengthen the therapeutic efficacy of Cel and improve delivery targeting. Cel-loaded Zein nanoparticles (core), are elegantly enveloped by a hydrophilic HA coating that forms the shell, resulting in significantly improved encapsulation efficiency and ensured good stability. The cellular uptake of Cel/Zein@HA NPs in HepG2 cells was 1.57-fold higher than nontargeting Cel/Zein NPs. Near-infrared fluorescence imaging confirmed the accumulation of Cel/Zein@HA NPs in H22 liver cancer tumors in mice, resulting in effective antitumor effects and good biosafety. Besides, in vitro and in vivo experiments showed that compared with Cel/Zein NPs, Cel/Zein@HA NPs had more efficient inhibitory effect on tumor proliferation and lower systemic toxicity. Further studies revealed that Cel/Zein@HA NPs induced apoptosis in hepatocellular carcinoma cells by modulating Bax and Bcl-2 expression, while also inhibiting tumor angiogenesis by decreasing CD31 and VEGF levels. Overall, this study presents a promising strategy for enhancing targeted liver cancer therapy through the utilization of biopolymer nanoparticle-based nano-pharmaceuticals that facilitate CD44-mediated cellular uptake.