A Novel Mouse Model of Acute-on-Chronic Cholestatic Alcoholic Liver Disease: A Systems Biology Comparison With Human Alcoholic Hepatitis.
Study Goal
The researchers aimed to develop a novel mouse model of acute-on-chronic alcohol liver injury using a high-fat diet combined with alcohol to mimic human alcoholic hepatitis.
Results Summary
The study found that mice fed a high-fat diet with alcohol exhibited exacerbated liver fibrosis, neutrophil infiltration, and ductular proliferation, resembling human alcoholic hepatitis. The model also showed gut barrier dysfunction, mimicking a key pathophysiological mechanism of the disease.
Population
Male mice with cholestatic liver fibrosis induced by DDC diet.
Effective Dosage
Up to 24 g/kg of ethyl alcohol in a high-fat diet.
Duration
4 weeks of alcohol feeding after an 8-week DDC diet and 1-week washout.
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
3,5-diethoxycarbonyl-1,4-dihydrocollidine (DDC, 0.05% w/w) diet for 8 weeks | increase | cholestatic liver fibrosis | mice | - | established | #1 |
ethyl alcohol in a high-fat diet for 4 weeks | neutral | - | male mice | up to 24 g/kg | fed intragastrically | #2 |
cholestatic liver fibrosis and subsequent alcohol exposure (DDC + EtOH) | increase | liver fibrosis with a pericellular pattern | mice | - | exhibited exacerbated | #3 |
cholestatic liver fibrosis and subsequent alcohol exposure (DDC + EtOH) | increase | neutrophil infiltration | mice | - | exhibited increased | #4 |
cholestatic liver fibrosis and subsequent alcohol exposure (DDC + EtOH) | increase | ductular proliferation | mice | - | exhibited | #5 |
DDC administration | no change | urine alcohol concentration | mice | - | had no effect on | #6 |
DDC administration | no change | liver steatosis | mice | - | had no effect on | #7 |
DDC- and alcohol-treated mice | neutral | patients with AH | mice | - | showed a transcriptomic signature that resembled that of | #8 |
mice in the DDC + EtOH group | increase | gut barrier dysfunction | mice | - | had an increased | #9 |
BACKGROUND: Alcohol-related liver disease is the main cause of liver-related mortality worldwide. The development of novel targeted therapies for patients with advanced forms (i.e., alcoholic hepatitis, AH) is hampered by the lack of suitable animal models. Here, we developed a novel mouse model of acute-on-chronic alcohol liver injury with cholestasis and fibrosis and performed an extensive molecular comparative analysis with human AH. METHODS: For the mouse model of acute-on-chronic liver injury, we used 3,5-diethoxycarbonyl-1,4-dihydrocollidine (DDC, 0.05% w/w) diet for 8 weeks to establish cholestatic liver fibrosis. After 1-week washout period, male mice were fed intragastrically for 4 weeks with up to 24 g/kg of ethyl alcohol in a high-fat diet. This animal model was phenotyped using histopathology, clinical chemistry, microbiome, and gene expression approaches. Data were compared to the phenotypes of human alcohol-related liver disease, including AH. RESULTS: Mice with cholestatic liver fibrosis and subsequent alcohol exposure (DDC + EtOH) exhibited exacerbated liver fibrosis with a pericellular pattern, increased neutrophil infiltration, and ductular proliferation, all characteristics of human AH. DDC administration had no effect on urine alcohol concentration or liver steatosis. Importantly, DDC- and alcohol-treated mice showed a transcriptomic signature that resembled that of patients with AH. Finally, we show that mice in the DDC + EtOH group had an increased gut barrier dysfunction, mimicking an important pathophysiological mechanism of human AH. CONCLUSIONS: We developed a novel mouse model of acute-on-chronic cholestatic alcoholic liver injury that has considerable translational potential and can be used to test novel therapeutic modalities for AH.