The LIDPAD mouse model captures the multisystem interactions and extrahepatic complications in MASLD

The LIDPAD mouse model captures the multisystem interactions and extrahepatic complications in MASLD

Metabolic dysfunction-associated steatotic liver disease (MASLD) represents an impending global health challenge. Current management strategies often face setbacks, emphasizing the need for preclinical models that faithfully mimic the human disease and its comorbidities. The liver disease progressio...

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Main Authors: Low, Zun Siong, Chua, Damien, Cheng, Hong Sheng, Tee, Rachel, Tan, Wei Ren, Ball, Christopher, Norliza Binte Esmail Sahib, Ng, Ser Sue, Qu, Jing, Liu, Yingzi, Hong, Haiyu, Cai, Chaonong, Rao, Nandini Chilagondanahalli Lakshmi, Wee, Aileen, Muthiah, Mark Dhinesh, Bichler, Zoë, Mickelson, Barbara, Kong, Mei Suen, Tay, Vanessa Shiyun, Yan, Zhuang, Chen, Jiapeng, Ng, Aik Seng, Yip, Yun Sheng, Vos, Marcus Ivan Gerard, Tan, Nicole Ashley, Lim, Dao Liang, Lim, Debbie Xiu En, Chittezhath, Manesh, Yaligar, Jadegoud, Verma, Sanjay Kumar, Poptani, Harish, Guan, Xue Li, Velan, Sambasivam Sendhil, Ali, Yusuf, Li, Liang, Tan, Nguan Soon, Wahli, Walter
Other Authors: Lee Kong Chian School of Medicine (LKCMedicine)
Format: Article
Language:English
Published: 2024
Subjects:
Medicine, Health and Life Sciences
Diet-induced weight loss
Gut microbiome
Online Access:https://hdl.handle.net/10356/180405
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Institution: Nanyang Technological University
Language: English
Description
Summary:Metabolic dysfunction-associated steatotic liver disease (MASLD) represents an impending global health challenge. Current management strategies often face setbacks, emphasizing the need for preclinical models that faithfully mimic the human disease and its comorbidities. The liver disease progression aggravation diet (LIDPAD), a diet-induced murine model, extensively characterized under thermoneutral conditions and refined diets is introduced to ensure reproducibility and minimize species differences. LIDPAD recapitulates key phenotypic, genetic, and metabolic hallmarks of human MASLD, including multiorgan communications, and disease progression within 4 to 16 weeks. These findings reveal gut-liver dysregulation as an early event and compensatory pancreatic islet hyperplasia, underscoring the gut-pancreas axis in MASLD pathogenesis. A robust computational pipeline is also detailed for transcriptomic-guided disease staging, validated against multiple harmonized human hepatic transcriptomic datasets, thereby enabling comparative studies between human and mouse models. This approach underscores the remarkable similarity of the LIDPAD model to human MASLD. The LIDPAD model fidelity to human MASLD is further confirmed by its responsiveness to dietary interventions, with improvements in metabolic profiles, liver histopathology, hepatic transcriptomes, and gut microbial diversity. These results, alongside the closely aligned changing disease-associated molecular signatures between the human MASLD and LIDPAD model, affirm the model's relevance and potential for driving therapeutic development.

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