Journal
FOOD RESEARCH INTERNATIONAL
Volume 156, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.foodres.2022.111331
Keywords
Tauroursodeoxycholic acid; Malnutrition; Obesity; Glucose homeostasis; Insulin resistance; Lipid metabolism
Categories
Funding
- Sa?o Paulo Research Foundation (FAPESP) , Brazil [2017/24851-0, 2018/26080-4]
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Early childhood malnutrition may lead to the onset of obesity and diabetes mellitus in adulthood. The study found that tauroursodeoxycholic acid (TUDCA) has beneficial effects on glucose homeostasis and body fat accumulation in protein-restricted mice. TUDCA reduces obesity, improves metabolic flexibility, and restores glucose tolerance and insulin sensitivity through multiple pathways, serving as a potential strategy to reverse metabolic disorders.
Early childhood malnutrition may facilitate the onset of obesity and diabetes mellitus in adulthood which, when established, makes it more resistant to therapeutic interventions. The beneficial effects of tauroursodeoxycholic acid (TUDCA) in glucose homeostasis and body fat accumulation were analyzed in protein-restricted mice fed a high-fat diet (HFD). C57BL/6 mice were fed a control (14% protein [C]) or a protein-restricted (6% protein [R]) diet for 6 weeks. Afterward, mice received an HFD or not for 12 weeks (C mice fed an HFD [CH] and R mice fed an HFD [RH]). In the last 15 days of this period, half of the mice fed a HFD received i.p. PBS (groups CH and RH) or 300 mg/kg TUDCA (groups CHT and RHT). RH mice developed obesity, as demonstrated by the increase in fat accumulation, liver steatosis, and metabolic inflexibility. Additionally, showed glucose intolerance and insulin hypersecretion. TUDCA reduced adiposity and improve metabolic flexibility through increased HSL phosphorylation and CPT1 expression in eWAT and BAT, and reduced ectopic fat deposition by activating the AMPK/HSL pathway in the liver. Also, improved glucose tolerance and insulin sensitivity, normalizing insulin secretion by reducing GDH expression and increasing insulin peripheral sensitivity by greater expression of the IR13 in muscle and adipose tissue and reducing PEPCK liver expression. Our data indicate that TUDCA reduces global adiposity and improves glucose tolerance and insulin sensitivity in protein malnourished mice fed a HFD. Therefore, this is a possible strategy to reverse metabolic disorders in individuals with the double burden of malnutrition.
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