Targeted Liver Fibrosis Therapy: Evaluating Retinol-Modified Nanoparticles and Atorvastatin/JQ1-Loaded Nanoparticles for Deactivation of Activated Hepatic Stellate Cells

Background: Liver fibrosis is a progressive pathological condition characterized by excessive extracellular matrix deposition, driven by activated hepatic stellate cells (aHSCs). Effective therapeutic strategies require targeting aHSCs and agents capable of reversing their activated phenotype. Methods: In this study, we developed chitosan nanoparticles loaded with atorvastatin (AS) and JQ1 and functionalized them with varying densities of retinol (Rt) to exploit aHSC targeting. Results: In vitro, Rt-NPs demonstrated enhanced uptake in GRX cells, with optimal performance observed at high Rt density (HRt-NPs). In vivo biodistribution in CCl4-induced fibrotic and healthy mice revealed that LRt-NPs achieved superior hepatic accumulation in fibrotic livers compared to unmodified and HRt-NPs, underscoring the importance of optimal ligand density for targeting. Western blot analysis showed that treatment of GRX cells with Rt-AS-NPs and Rt-JQ1-NPs either individually or combined significantly reduced the expression of fibronectin, vimentin, and PDGFR-β, key markers of HSC activation, with combination therapy providing more significant effects. Conclusions: This work highlights the potential of Rt-chitosan NPs loaded with AS and JQ1 as an effective dual-drug system for targeted antifibrotic therapy, offering enhanced hepatic selectivity, improved safety, and potent aHSC deactivation.