Self-assembled Angelica sinensis polysaccharide nanoparticles with an instinctive liver-targeting ability as a drug carrier for acute alcoholic liver damage protection.

The present work aimed to study the feasibility of Angelica sinensis polysaccharide (ASP) as an instinctive liver-targeting drug delivery carrier with applications in acute alcoholic liver damage (ALD). Amphipathic cholesteryl hemisuccinate-ASP (ASP-CHEMS) conjugate was synthesized by an esterification reaction and characterized by conventional methods. ASP-CHEMS self-assembled nanoparticles (ACNPs) and Curcumin-loaded ACNPs (Cur/ACNPs) were fabricated with a roughly spherical shape, and their sizes were ranged from 200 to 260 nm in aqueous solution. Compared with free Cur, Cur/ACNPs displayed enhanced solubility, good photostability, and a sustained release of Cur over 72 h. In the in vivo cellular uptake behavior study and in vivo bioimaging experiments, the ACNPs showed excellent liver-targeting capability because of the specific recognition by the asialoglycoprotein receptor (ASGPR) overexpressed on the hepatocyte membrane. The tissue distribution of Cur/ACNPs in mice further demonstrated that ACNPs could distinctly enhance the distribution of Cur into the liver. Furthermore, Cur/ACNPs protected the liver from acute ALD by attenuating oxidative stress and were superior to the protective effects of free Cur and the Cur-loaded CHEMS modified-dextran derivative. According to the results, ACNPs may serve as a promising liver-targeting drug delivery carrier for liver disease prevention.