Omega3-polyunsaturated fatty acid ameliorates metabolic disorders in adulthood rats caused by postnatal early overfeeding
10.3760/cma.j.issn.1000-6699.2020.01.009
- VernacularTitle: ω3-长链多不饱和脂肪酸改善早期过度营养导致的大鼠成年期代谢异常
- Author:
Qinhui YAN
1
;
Wei ZHOU
;
Xiaolei ZHU
;
Susu DU
;
Fan YANG
;
Xiaonan LI
Author Information
1. Department of Children Healthcare, Children′s Hospital of Nanjing Medical University, Nanjing 210008, China
- Publication Type:Journal Article
- Keywords:
Omega 3-PUFA;
Postnatal overfeeding;
White fat;
Mitochondria
- From:
Chinese Journal of Endocrinology and Metabolism
2020;36(1):63-71
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To explore the effect and mechanism of omega 3-polyunsaturated fatty acid(ω3-PUFA) dietary intervention on mitochondrial function of white adipose tissue in adult rats with postnatal early overfeeding.
Methods:An overfed animal model by adjusting litter size was developed for the study of neonatal overfeeding. The litter size was adjusted to 3 male rats per litter(small litter, SL group) and 10 pups per litter(normal litter, NL group). After weaning(week 3), the pups were fed standard chow or ω3-PUFA diet(SL-FO) until postnatal weeks 13. Food intake, body weight, and rectal temperature of rats were measured regularly, and energy metabolism of animals was monitored in week 13. During week 3 and 13, subcutaneous adipose tissue was collected. Inguinal preadipocytes of mice were isolated and induced to differentiate, and 50 μmol/L eicosapentaenoicacid(EPA) was administered for 48 h at the late stage of differentiation. The mRNA and protein expression levels of mitochondrial related genes, mitochondrial copy number, and oxygen consumption rate of adipocytes were detected in adipose tissue and adipocytes.
Results:By the 3rd week, the body weight, food intake, and fat cell area in SL group were higher than those in NL group while the body temperature was lower until to 13 weeks. By the 13th week, the O2 consumption, CO2 output, and heat production of rats in SL group were lower than those in NL group. Meanwhile, the expressions of mitochondrial function related genes such as uncoupling protein 1(UCP1), carnitine palmitoyltransferase 1(CPT1), SIRT1, and mitochondrial biosynthesis regulatory gene peroxisome proliferator-activated receptor coativator-1 (PGC1α) in adipose tissue by the 3rd and 13th week were significantly reduced(P<0.05). After weaning, ω3-PUFA diet significantly reduced weight gain in SL rats, increased UCP1 protein expression, restored energy metabolism level and mitochondrial function related gene expression. In vitro intervention of EPA increased the mitochondrial copy number, the mRNA and protein expression levels of mitochondrial biosynthesis and functional genes, as well as the mitochondrial basic oxygen consumption rate(P<0.05).
Conclusion:ω3-PUFA improves postnatal overfeeding-induced impairment of the mitochondrial function and biosynthesis of subcutaneous white adipose tissue in rats, which may be an important mechanism for fish oil diet to inhibit the early over-nutrition program and restore the thermogenic metabolism.
