ABSTRACT
Puerarin, a bioactive flavone compound isolated from Pueraria (Wild.), provides hepatoprotection by anti-inflammatory, anti-alcoholism, and regulating mechanistic target of rapamycin (mTOR). Building evidence suggests that the activation of mTOR reduces liver injuries associated with alcohol consumption and metabolism. However, the poor water solubility, low bioavailability, and short half-life of puerarin hinder its clinical application. The utility of mesoporous silicon nanoparticles (MSNs) can improve traditional Chinese medicine limitations. Stober methods were used to fabricate MSNs@Pue, and the size, zeta potentials and drug encapsulation efficiency were characterized by a series of analytical methods. IVIS Imaging System demonstrated liver-targeted bio-distribution, and then high-throughput sequencing, immunoproteomics and ultrastructure methods indicated autophagy related protective mechanism, followed by curative effect evaluation for the treatment efficacy. An acute-on chronic ethanol-drinking according to Gao-binge model induced alcoholic hepatitis (AH) pathology and resulted in hepatic hyper-autophagy, which was improved with MSNs@Pue administration (puerarin: 30 mM, 42 mg/kg; intravenously [i.v.]). Ethanol-fed mice were found to have increased expression of autophagy-related proteins (Atg3, Atg7, LC3 and p62). In contrast, MSNs@Pue administration significantly decreased the expression of these proteins and alleviated fatty droplets infiltration in damaged liver. Furthermore, acute-on-chronic ethanol feeding also resulted in the activiation of ERK activation and mTOR expression, which were reversed with MSNs@Pue administration and better than the usage of puerarin alone. Results point to MSNs@Pue mediated ERK/mTOR signaling pathway activation as a possible protective strategy to improve AH, which provides a strategy and evidence for treating liver disease using an MSN delivery system.
