Protein restriction associated with high fat induces metabolic dysregulation without obesity in juvenile mice

Protein restriction associated with high fat induces metabolic dysregulation without obesity in juvenile mice

Abstract Dysregulation of energy metabolism, including hyperglycemia, insulin resistance and fatty liver have been reported in a substantial proportion of lean children. However, non-obese murine models recapitulating these features are lacking to study the mechanisms underlying the development of m...

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Bibliographic Details
Main Authors: Amélie Joly, Jean-Louis Thoumas, Anne Lambert, Estelle Caillon, François Leulier, Filipe De Vadder
Format: Article
Language:English
Published: BMC 2024-12-01
Series:Nutrition & Metabolism
Subjects:
Metabolic dysfunction
Lean
Juvenile
MASLD
Online Access:https://doi.org/10.1186/s12986-024-00879-9
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Summary:Abstract Dysregulation of energy metabolism, including hyperglycemia, insulin resistance and fatty liver have been reported in a substantial proportion of lean children. However, non-obese murine models recapitulating these features are lacking to study the mechanisms underlying the development of metabolic dysregulations in lean children. Here, we develop a model of diet-induced metabolic dysfunction without obesity in juvenile mice by feeding male and female mice a diet reflecting Western nutritional intake combined with protein restriction (mWD) during 5 weeks after weaning. mWD-fed mice (35% fat, 8% protein) do not exhibit significant weight gain and have moderate increase in adiposity compared to control mice (16% fat, 20% protein). After 3 weeks of mWD, juvenile mice have impaired glucose metabolism including hyperglycemia, insulin resistance and glucose intolerance. mWD also triggers hepatic metabolism alterations, as shown by the development of simple liver steatosis. Both male and female mice fed with mWD displayed metabolic dysregulation, which a probiotic treatment with Lactiplantibacillus plantarum WJL failed to improve. Overall, mWD-fed mice appear to be a good preclinical model to study the development of diet-induced metabolic dysfunction without obesity in juveniles.
ISSN:1743-7075

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