ABSTRACT
Background: Cancer is a serious threat to human life, health and social development. In recent years, nanomicelles, as an emerging drug carrier material, have gradually entered people's field of vision because of their advantages of improving bioavailability, maintaining drug levels, reducing systemic side effects and increasing drug accumulation at target sites. Methods: In this study, B-GPSG nano-micelles were prepared by film dispersion hydration method using brucine as model drug and glycyrrhetinic acid-polyethylene glycol-3-methylene glycol-dithiodipropionic acid-glycerol monostearate polymer as nano-carrier. The preparation process, characterization, drug release in vitro, pharmacokinetics and liver targeting were investigated. Results: The results showed that the range of particle size, polydispersion index and Zeta potential were 102.7 ± 1.09 nm, 0.201 ± 0.02 and -24.5 ± 0.19 mV respectively. The entrapment efficiency and drug loading were 83.79 ± 2.13% and 12.56 ± 0.09%, respectively. The drug release experiments in vitro and pharmacokinetic experiments showed that it had obvious sustained release effect. For pharmacokinetics study, it shows that both the B-GPSG solution group and the B-PSG solution group changed the metabolic kinetic parameters of brucine, but the B-GPSG solution group had a better effect. Compared with the B-PSG solution group, the drug was more prolonged in rats. The half-life in the body and the retention time in the body of B-GPSG are more helpful to improve the bioavailability of the drug and play a long-term effect. The tail vein injection results of mice indicate that B-GPSG can target and accumulate brucine in the liver without affecting other key organs. Cell uptake experiments and tissue distribution experiments in vivo show that glycyrrhetinic acid modified nano-micelles can increase the accumulation of brucine in hepatocytes, has a good liver targeting effect, and can be used as a new preparation for the treatment of liver cancer. Conclusion: The B-SPSG prepared in this experiment can provide a new treatment method and research idea for the treatment of liver cancer.
ABSTRACT
Background: Glycyrrhetinic acid-mediated brucine self-assembled nanomicelles enhance the anti-hepatitis B properties of brucine by improving its water solubility, short half-life, toxicity, and side effects. Brucine (B) is an indole alkaloid extracted from the seeds of Strychnos nux-vomica (Loganiaceae). Purpose: To assess the efficacy of the Brucine-Glycyrrhetnic acid-Polyethylene glycol-3,3'-dithiodipropionic acid-Glycerin monostearate (B-GPSG) in treating hepatitis B, its potential to protect against acute liver injury caused by d-galactosamine and its anti-hepatoma activities were studied. Research Design: The concentration of B-GPSG used in the in vivo and in vitro experiments was 0.63 mg/mL. The rats injected with d-GalN (450 mg/kg) were used as liver injury models. The rats were separated into normal, model, positive, positive control, B-PSG and B-GPSG groups. Hepatoma cells expressing HBV HepG2.2.15 were used for in vitro experiments. 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, plate cloning, Hoechst staining and flow cytometry were conducted to explore the mechanism of B-GPSG against hepatitis B. Results: Compared with the model group, the liver coefficient of B-GPSG group decreased (4.59 ± 0.17 vs 5.88 ± 0.42), the content of MDA in rat liver homogenate decreased (12.54 ± 1.81 vs 23.05 ± 2.98), the activity of SOD increased, the activity of ALT and AST in rat serum decreased. In vitro, the IC50 values of B-GPSG group decreased. B-GPSG group effectively inhibited the proliferation and migration of HepG2.2.15 cells. Conclusions: The hepatoprotective effects of B-GPSG nanomicelles, which are attributed to their GA-mediated liver targeting and synergistic actions with brucine, suggest their therapeutic potential against hepatitis B. This development opens up new possibilities for the application of traditional Chinese medicine and nanomedicine in anti-hepatitis B.