Abstract

Treatment of Nonalcoholic fatty liver disease (NAFLD) constitutes an unmet clinical need owing to the relatively limited efficacy of both novel and readily available metabolic medications, thus warranting pathobiological investigations on the mechanisms of single or combination regimens. In this context, our study aimed to assess and compare whether and how liraglutide, a glucagon-like peptide-1 receptor agonist, and elafibranor, a dual peroxisome proliferator-activated receptor alpha-delta agonist, may affect hepatic histology and metabolipidomic fingerprints in a model of advanced NAFLD. Male C57BL/6JRj mice with biopsy-confirmed hepatosteatosis and fibrosis induced by AMLN diet (40% fat with 20% trans-fat, 2% cholesterol and 22% fructose) were randomized to receive for 12 weeks: a) Liraglutide (0.4 mg/kg/d s.c.), b) Elafibranor (30 mg/kg/d p.o.), c) vehicle. Metabolic indices, liver function markers, liver pathology, and metabolomics/lipidomics were assessed at study completion. Both drugs markedly reduced body weight and fat percentage (p-value <0.001), and improved glucose tolerance and insulin sensitivity, as indicated by oral glucose and intraperitoneal insulin tolerance tests. Hepatic lipid content was downregulated under both treatments (p-value <0.001), especially under elafibranor, which also elevated liver weight in contrast with liraglutide (p-value vs liraglutide <0.001). NAFLD activity score (pre-to-post) and its histological components were substantially improved (mean difference ± standard error of mean: -1.4 ± 0.3 for liraglutide; -2.0 ± 0.2 for elafibranor), with elafibranor demonstrating a more robust anti-steatotic effect vs liralgutide (p-value <0.01) as well as anti-fibrotic effects (-0.5 ± 0.1). Liraglutide also limited the immunohistochemical expression of pro-inflammatory markers of Kupffer and hepatic stellate cell function (Galectin-3, Collagen type I alpha 1, and alpha-smooth muscle actin). In the omics analysis, elafibranor profoundly ameliorated the hepatic lipidome by diminishing the concentrations of glyceride species, increasing phospholipids and carnitine metabolites, and modifying key regulators of fatty acid oxidation, inflammation, and oxidative stress, including metabolites of methionine, glutathione, and pantothenate. Liraglutide significantly affected bile acid and carbohydrate metabolism by restoring the concentrations of metabolically beneficial primary and secondary bile acids, glycogen metabolism by-products, and pentoses, thus probably driving glycogen utilization-turnover and nucleic acid synthesis. Thus, liraglutide and elafibranor diverge in their mechanistic treatment of advanced NAFLD pathology, indicated by their robust but differential regulation of the hepatic metabolipidome. These findings support their combinatory therapeutic evaluation in future studies.

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