학술논문
An unbiased ranking of murine dietary models based on their proximity to human metabolic dysfunction-associated steatotic liver disease (MASLD)
Document Type
Original Paper
Author
Vacca, Michele; Kamzolas, Ioannis; Harder, Lea Mørch; Oakley, Fiona; Trautwein, Christian; Hatting, Maximilian; Ross, Trenton; Bernardo, Barbara; Oldenburger, Anouk; Hjuler, Sara Toftegaard; Ksiazek, Iwona; Lindén, Daniel; Schuppan, Detlef; Rodriguez-Cuenca, Sergio; Tonini, Maria Manuela; Castañeda, Tamara R.; Kannt, Aimo; Rodrigues, Cecília M. P.; Cockell, Simon; Govaere, Olivier; Daly, Ann K.; Allison, Michael; Honnens de Lichtenberg, Kristian; Kim, Yong Ook; Lindblom, Anna; Oldham, Stephanie; Andréasson, Anne-Christine; Schlerman, Franklin; Marioneaux, Jonathon; Sanyal, Arun; Afonso, Marta B.; Younes, Ramy; Amano, Yuichiro; Friedman, Scott L.; Wang, Shuang; Bhattacharya, Dipankar; Simon, Eric; Paradis, Valérie; Burt, Alastair; Grypari, Ioanna Maria; Davies, Susan; Driessen, Ann; Yashiro, Hiroaki; Pors, Susanne; Worm Andersen, Maja; Feigh, Michael; Yunis, Carla; Bedossa, Pierre; Stewart, Michelle; Cater, Heather L.; Wells, Sara; Schattenberg, Jörn M.; Anstee, Quentin M.; Tiniakos, Dina; Perfield, James W.; Petsalaki, Evangelia; Davidsen, Peter; Vidal-Puig, Antonio
Source
Nature Metabolism. 6(6):1178-1196
Subject
Language
English
ISSN
2522-5812
Abstract
Metabolic dysfunction-associated steatotic liver disease (MASLD), previously known as non-alcoholic fatty liver disease, encompasses steatosis and metabolic dysfunction-associated steatohepatitis (MASH), leading to cirrhosis and hepatocellular carcinoma. Preclinical MASLD research is mainly performed in rodents; however, the model that best recapitulates human disease is yet to be defined. We conducted a wide-ranging retrospective review (metabolic phenotype, liver histopathology, transcriptome benchmarked against humans) of murine models (mostly male) and ranked them using an unbiased MASLD ‘human proximity score’ to define their metabolic relevance and ability to induce MASH-fibrosis. Here, we show that Western diets align closely with human MASH; high cholesterol content, extended study duration and/or genetic manipulation of disease-promoting pathways are required to intensify liver damage and accelerate significant (F2+) fibrosis development. Choline-deficient models rapidly induce MASH-fibrosis while showing relatively poor translatability. Our ranking of commonly used MASLD models, based on their proximity to human MASLD, helps with the selection of appropriate in vivo models to accelerate preclinical research.
The LITMUS consortium provides a resource of rodent MASLD models benchmarked against metabolic, histologic and transcriptomic features that are relevant for human MASLD. The work is useful for selecting relevant rodent models for studying this common disease.
The LITMUS consortium provides a resource of rodent MASLD models benchmarked against metabolic, histologic and transcriptomic features that are relevant for human MASLD. The work is useful for selecting relevant rodent models for studying this common disease.