Abstract
Liver fibrosis remains a major global health challenge with limited therapeutic options. In their recent study, Wang et al report that levodopa, a dopamine precursor widely used in Parkinson's disease, significantly attenuates carbon tetrachloride-induced liver fibrosis in rats by enhancing dopamine receptor D1 expression and activating the Hippo signaling pathway, leading to phosphorylation and inactivation of yes-associated protein 1. This discovery links G-protein-coupled receptor signaling to Hippo pathway regulation in hepatic fibrosis. The work highlights the dopamine receptor D1-Hippo/yes-associated protein 1 axis as a promising antifibrotic mechanism and introduces levodopa as a potential repurposing candidate for chronic liver disease. With its established safety and affordability, levodopa offers a rapidly translatable strategy that warrants validation in human tissues and diverse fibrosis models. Here, we place these findings in the broader context of G-protein-coupled receptor regulation of hepatic stellate cell activation, discuss translational opportunities for levodopa in liver fibrosis, and propose future directions to validate this pathway across disease models and clinical settings.