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Role of aramchol in steatohepatitis and fibrosis in mice

Authors :
Iruarrizaga‐Lejarreta, Marta
Varela‐Rey, Marta
Fernández‐Ramos, David
Martínez‐Arranz, Ibon
Delgado, Teresa C
Simon, Jorge
Gutiérrez‐de Juan, Virginia
delaCruz‐Villar, Laura
Azkargorta, Mikel
Lavin, José L.
Mayo, Rebeca
Van Liempd, Sebastiaan M.
Aurrekoetxea, Igor
Buqué, Xabier
Delle Cave, Donatella
Peña, Arantza
Rodríguez‐Cuesta, Juan
Aransay, Ana M.
Elortza, Félix
Falcón‐Pérez, Juan Manuel
Aspichueta, Patricia
Hayardeny, Liat
Noureddin, Mazen
Sanyal, Arun
Alonso, Cristina
Anguita, Juan
Martínez‐Chantar, María Luz
Lu, Shelly C.
Mato, José M.
Publisher :
Zenodo

Abstract

Nonalcoholic steatohepatitis (NASH) is the advanced form of nonalcoholic fatty liver disease (NAFLD) that sets the stage for further liver damage. The mechanism for the progression of NASH involves multiple parallel hits, including oxidative stress, mitochondrial dysfunction, inflammation, and others. Manipulation of any of these pathways may be an approach to prevent NASH development and progression. Arachidyl‐amido cholanoic acid (Aramchol) is presently in a phase IIb NASH study. The aim of the present study was to investigate Aramchol's mechanism of action and its effect on fibrosis using the methionine‐ and choline‐deficient (MCD) diet model of NASH. We collected liver and serum from mice fed an MCD diet containing 0.1% methionine (0.1MCD) for 4 weeks; these mice developed steatohepatitis and fibrosis. We also collected liver and serum from mice receiving a control diet, and metabolomes and proteomes were determined for both groups. The 0.1MCD‐fed mice were given Aramchol (5 mg/kg/day for the last 2 weeks), and liver samples were analyzed histologically. Aramchol administration reduced features of steatohepatitis and fibrosis in 0.1MCD‐fed mice. Aramchol down‐regulated stearoyl‐coenyzme A desaturase 1, a key enzyme involved in triglyceride biosynthesis and the loss of which enhances fatty acid β‐oxidation. Aramchol increased the flux through the transsulfuration pathway, leading to a rise in glutathione (GSH) and the GSH/oxidized GSH ratio, the main cellular antioxidant that maintains intracellular redox status. Comparison of the serum metabolomic pattern between 0.1MCD‐fed mice and patients with NAFLD showed a substantial overlap.Conclusion: Aramchol treatment improved steatohepatitis and fibrosis by 1) decreasing stearoyl‐coenyzme A desaturase 1 and 2) increasing the flux through the transsulfuration pathway maintaining cellular redox homeostasis. We also demonstrated that the 0.1MCD model resembles the metabolic phenotype observed in about 50% of patients with NAFLD, which supports the potential use of Aramchol in NASH treatment.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........2724629cc24d41c104a79fc757d29d72