Abstract

In healthy livers, extracellular matrix protein 1 (ECM1) is essential for liver homeostasis by keeping latent transforming growth factor-{beta} (LTGF-{beta}) quiescent. Upon hepatocyte damage, ECM1 is downregulated, facilitating LTGF-{beta} activation and fibrogenesis. However, little is known about how hepatic ECM1 is regulated. Here we found in healthy hepatocytes, EGF/EGFR signaling sustains ECM1 expression through phosphorylating STAT1 at S727, enhancing its binding to the ECM1 promoter and boosting gene transcription. During liver inflammation, accumulating IFN{gamma} disrupts this process by downregulating EGFR and inhibiting EGF/EGFR/STAT1-mediated ECM1 promoter binding. Mechanistically, IFN{gamma}-induced STAT1 phosphorylation at Y701 impairs the binding of p-STAT1 S727 to the ECM1 promoter. Additionally, IFN{gamma} induces NRF2 nuclear translocation, which repressively binds to the ECM1 promoter, further reducing its expression. These findings were confirmed in several chronic liver disease (CLD) mouse models. Moreover, AAV8-ECM1 significantly attenuates liver fibrosis and injuries in Western diet (WD)-fed mice. Notably, in patients with CLD, ECM1 levels align with EGFR expression, while NRF2 and LTGF-{beta} activation show a negative correlation with both.