AMPK activator ATX-304 reduces oxidative stress and improves MASLD via metabolic switching
Emanuel Holm, … , Silvia Remeseiro, Andreas Hörnblad
Emanuel Holm, … , Silvia Remeseiro, Andreas Hörnblad
Published April 8, 2025
Citation Information: JCI Insight. 2025;10(7):e179990. https://doi.org/10.1172/jci.insight.179990.
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Research Article Gastroenterology Hepatology Metabolism

AMPK activator ATX-304 reduces oxidative stress and improves MASLD via metabolic switching

Abstract

Metabolic dysfunction–associated steatotic liver disease (MASLD) is the most common chronic liver disease worldwide for which there is only one approved treatment. Adenosine monophosphate–activated protein kinase (AMPK) is an interesting therapeutic target since it acts as a central regulator of cellular metabolism. Despite efforts to target AMPK, no direct activators have yet been approved for treatment of this disease. This study investigated the effect of the AMPK activator ATX-304 in a preclinical mouse model of progressive fatty liver disease. The data demonstrated that ATX-304 diminishes body fat mass, lowers blood cholesterol levels, and mitigates general liver steatosis and the development of liver fibrosis, but with pronounced local heterogeneities. The beneficial effects of ATX-304 treatment were accompanied by a shift in the liver metabolic program, including increased fatty acid oxidation, reduced lipid synthesis, as well as remodeling of cholesterol and lipid transport. We also observed variations in lipid distribution among liver lobes in response to ATX-304, and a shift in the zonal distribution of lipid droplets upon treatment. Taken together, our data suggested that ATX-304 holds promise as a potential treatment for MASLD.

Authors

Emanuel Holm, Isabeau Vermeulen, Saba Parween, Ana López-Pérez, Berta Cillero-Pastor, Michiel Vandenbosch, Silvia Remeseiro, Andreas Hörnblad

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Figure 6

ATX-304 treatment ameliorates lipid profile changes in CD-HFD livers.

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ATX-304 treatment ameliorates lipid profile changes in CD-HFD livers. (A...
(A) Overlay of immunofluorescence and bright-field images of liver sections stained for periportal marker E-cadherin (red) and with TrueBlack for lipid droplets (white). Lipid droplets in ATX-304–treated livers are preferentially located in the periportal zone. Scale bar: 50 μm. (B) pLSA score plot for all MALDI-MSI samples in positive mode. (C) Lipid species identified in positive mode and associated with RD and CD-HFD+ATX-304 livers (yellow and green box), or CD-HFD livers (blue box). ROC values are indicated. (D) pLSA score plot of all MALDI-MSI samples in negative mode. (E) Lipid species identified in negative mode and associated with RD (yellow box), CD-HFD (blue box), and CD-HFD+ATX-304 (green box). (F) Images of ATX-304 localization at 378.012 m/z ± 0.3 Da in the left lobe (LL) and right median lobe (RML) of treated animals. RD and CD-HFD livers display no signal. White scale bar: 2 mm. Graded scale from blue (0%) to white (100%) indicates signal intensity.