Highly bioavailable silibinin nanoparticles inhibit HCV infection

水飞蓟宾 生物利用度 体内 药代动力学 抗氧化剂 药理学 化学 丙型肝炎病毒 丙型肝炎 效力 医学 体外 生物化学 生物 免疫学 病毒 生物技术
作者
Ching‐Hsuan Liu,Chun‐Ching Lin,Wen-Chan Hsu,Chueh-Yao Chung,Chih‐Chan Lin,Alagie Jassey,Shun-Pang Chang,Chen‐Jei Tai,Cheng-Jeng Tai,Justin Shields,Christopher D. Richardson,Ming‐Hong Yen,D. Lorne Tyrrell,Liang Lin
出处
期刊:Gut [BMJ]
卷期号:66 (10): 1853-1861 被引量:52
标识
DOI:10.1136/gutjnl-2016-312019
摘要

OBJECTIVE: Silibinin is a flavonolignan that is well established for its robust antiviral activity against HCV infection and has undergone several clinical trials for the management of hepatitis C. Despite its potency, silibinin suffers from poor solubility and bioavailability, restricting its clinical use. To overcome this limitation, we developed highly bioavailable silibinin nanoparticles (SB-NPs) and evaluated their efficiency against HCV infection. DESIGN: SB-NPs were prepared using a nanoemulsification technique and were physicochemically characterised. Infectious HCV culture systems were used to evaluate the influence of SB-NP on the virus life cycle and examine their antioxidant activity against HCV-induced oxidative stress. The safety profiles of SB-NP, in vivo pharmacokinetic studies and antiviral activity against infection of primary human hepatocytes were also assessed. RESULTS: SB-NP consisted of nanoscale spherical particles (<200 nm) encapsulating amorphous silibinin at >97% efficiency and increasing the compound's solubility by >75%. Treatment with SB-NP efficiently restricted HCV cell-to-cell transmission, suggesting that they retained silibinin's robust anti-HCV activity. In addition, SB-NP exerted an antioxidant effect via their free radical scavenging function. Oral administration of SB-NP in rodents produced no apparent in vivo toxicity, and pharmacokinetic studies revealed an enhanced serum level and superior biodistribution to the liver compared with non-modified silibinin. Finally, SB-NP efficiently reduced HCV infection of primary human hepatocytes. CONCLUSIONS: Due to SB-NP's enhanced bioavailability, effective anti-HCV activity and an overall hepatoprotective effect, we suggest that SB-NP may be a cost-effective anti-HCV agent that merits further evaluation for the treatment of hepatitis C.
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