Cell Reports Medicine (Sep 2024)

Detecting altered hepatic lipid oxidation by MRI in an animal model of MASLD

  • Marc McLeod,
  • Mario C. Chang,
  • Anna Rushin,
  • Mukundan Ragavan,
  • Rohit Mahar,
  • Gaurav Sharma,
  • Arshee Badar,
  • Anthony Giacalone,
  • Max E. Glanz,
  • Vinay R. Malut,
  • Dalton Graham,
  • Nishanth E. Sunny,
  • James A. Bankson,
  • Kenneth Cusi,
  • Matthew E. Merritt

Journal volume & issue
Vol. 5, no. 9
p. 101714

Abstract

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Summary: Metabolic dysfunction-associated steatotic liver disease (MASLD) prevalence is increasing annually and affects over a third of US adults. MASLD can progress to metabolic dysfunction-associated steatohepatitis (MASH), characterized by severe hepatocyte injury, inflammation, and eventual advanced fibrosis or cirrhosis. MASH is predicted to become the primary cause of liver transplant by 2030. Although the etiology of MASLD/MASH is incompletely understood, dysregulated fatty acid oxidation is implicated in disease pathogenesis. Here, we develop a method for estimating hepatic β-oxidation from the metabolism of [D15]octanoate to deuterated water and detection with deuterium magnetic resonance methods. Perfused livers from a mouse model of MASLD reveal dysregulated hepatic β-oxidation, findings that corroborate in vivo imaging. The high-fat-diet-induced MASLD mouse studies indicate that decreased β-oxidative efficiency in the fatty liver could serve as an indicator of MASLD progression. Furthermore, our method provides a clinically translatable imaging approach for determining hepatic β-oxidation efficiency.

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