Communications Biology (Mar 2024)

A genetic mouse model of lean-NAFLD unveils sexual dimorphism in the liver-heart axis

  • Charlotte Burelle,
  • Valentin Clapatiuc,
  • Sonia Deschênes,
  • Alexanne Cuillerier,
  • Marine De Loof,
  • Marie-Ève Higgins,
  • Hugues Boël,
  • Caroline Daneault,
  • Billie Chouinard,
  • Marie-Élaine Clavet,
  • Nolwenn Tessier,
  • Isabelle Croteau,
  • Geneviève Chabot,
  • Catherine Martel,
  • Martin G. Sirois,
  • Sylvie Lesage,
  • Yan Burelle,
  • Matthieu Ruiz

DOI
https://doi.org/10.1038/s42003-024-06035-6
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 19

Abstract

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Abstract Lean patients with NAFLD may develop cardiac complications independently of pre-existent metabolic disruptions and comorbidities. To address the underlying mechanisms independent of the development of obesity, we used a murine model of hepatic mitochondrial deficiency. The liver-heart axis was studied as these mice develop microvesicular steatosis without obesity. Our results unveil a sex-dependent phenotypic remodeling beyond liver damage. Males, more than females, show fasting hypoglycemia and increased insulin sensitivity. They exhibit diastolic dysfunction, remodeling of the circulating lipoproteins and cardiac lipidome. Conversely, females do not manifest cardiac dysfunction but exhibit cardiometabolic impairments supported by impaired mitochondrial integrity and β-oxidation, remodeling of circulating lipoproteins and intracardiac accumulation of deleterious triglycerides. This study underscores metabolic defects in the liver resulting in significant sex-dependent cardiac abnormalities independent of obesity. This experimental model may prove useful to better understand the sex-related variability, notably in the heart, involved in the progression of lean-NAFLD.