Objectives
Evidences demonstrate that sorafenib alleviates liver fibrosis via inhibiting HSC activation and ECM accumulation. The underlying mechanism remains unclear. Ferroptosis, a novel programmed cell death, regulates diverse physiological/pathological processes. In this study, we aim to investigate the functional role of HSC ferroptosis in the anti‐fibrotic effect of sorafenib.
Materials and Methods
The effects of sorafenib on HSC ferroptosis and ECM expression were assessed in mouse model of liver fibrosis induced by CCl
4
. In vitro, Fer‐1 and DFO were used to block ferroptosis and then explored the anti‐fibrotic effect of sorafenib by detecting α‐SMA, COL1α1 and fibronectin proteins. Finally, HIF‐1α siRNA, plasmid and stabilizers were applied to assess related signalling pathway.
Results
Sorafenib attenuated liver injury and ECM accumulation in CCl
4
‐induced fibrotic livers, accompanied by reduction of SLC7A11 and GPX4 proteins. In sorafenib‐treated HSC‐T6 cells, ferroptotic events (depletion of SLC7A11, GPX4 and GSH; accumulation iron, ROS and MDA) were discovered. Intriguingly, these ferroptotic events were not appeared in hepatocytes or macrophages. Sorafenib‐elicited HSC ferroptosis and ECM reduction were abrogated by Fer‐1 and DFO. Additionally, both HIF‐1α and SLC7A11 proteins were reduced in sorafenib‐treated HSC‐T6 cells. SLC7A11 was positively regulated by HIF‐1α, inactivation of HIF‐1α/SLC7A11 pathway was required for sorafenib‐induced HSC ferroptosis, and elevation of HIF‐1α could inhibit ferroptosis, ultimately limited the anti‐fibrotic effect.
Conclusions
Sorafenib triggers HSC ferroptosis via HIF‐1α/SLC7A11 signalling, which in turn attenuates liver injury and fibrosis.
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