Multifunctional Liposome Delivery System Based on Ursodeoxycholic Acid Sodium for the Encapsulation of Silibinin and Combined Treatment of Alcoholic Liver Injury

水飞蓟宾 脂质体 熊去氧胆酸 化学 封装(网络) 输送系统 肝损伤 药理学 药物输送 生物化学 医学 有机化学 计算机科学 计算机网络
作者
Yulu Wang,Minghao Yuan,Sihui Li,Jiamei Tang,Yan Wan,Xue Liang,Yiping Guo,Li Guo
出处
期刊:Molecular Pharmaceutics [American Chemical Society]
卷期号:22 (3): 1480-1497
标识
DOI:10.1021/acs.molpharmaceut.4c01197
摘要

Alcohol liver disease (ALD) is a chronic liver disorder resulting from long-term heavy alcohol consumption. The pathogenesis of ALD is multifactorial, and existing therapeutic agents primarily target specific aspects of the disease while presenting significant side effects, including drug-induced liver injury and hepatobiliary disease. Silibinin (SLB) has attracted widespread attention for its hepatoprotective effects and favorable safety profile. However, inherent limitations associated with SLB, such as poor solubility and bioavailability, have significantly limited its clinical application. Drug delivery systems, including liposomes, offer promising potential for the delivery of hydrophobic drugs. However, the selection of an appropriate delivery vehicle requires optimization. Ursodeoxycholic acid sodium (UAS) serves as a promising alternative to cholesterol in liposomal formulations, offering a potential strategy to mitigate the health risks associated with cholesterol. In this study, UAS was employed as the liposomal membrane material to prepare a UAS liposome loaded with SLB (SUL), and its efficacy and mechanism of action in alcoholic-induced liver injury were subsequently evaluated. The experimental results demonstrated that SUL exhibited a uniform particle size distribution, good stability, and an effective release profile in vitro. Following oral administration, SUL effectively inhibited alcohol-induced liver damage, oxidative stress, and fat accumulation. In addition, SUL regulated the expression of the kelch-1ike ECH- associated protein l (Keap1), nuclear factor erythroid 2-related factor 2 (Nrf2), and heme oxygenase 1 (HO-1) proteins, thereby exerting antioxidative stress effects. Furthermore, it also modulated apoptosis-related factors, including B-cell lymphoma-2 (Bcl-2), BCL-2-associated X (Bax), cysteinyl aspartate specific proteinase-3 (Caspase-3), and cleaved caspase-3, to mitigate hepatocyte apoptosis. In summary, SUL demonstrates enhanced therapeutic efficacy against ALD, offering a novel approach for the clinical application of SLB in the prevention and treatment of ALD.
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