• Title of article

    High multivitamin intakes during pregnancy and postweaning obesogenic diets interact to affect the relationship between expression of PPAR genes and glucose regulation in the offspring

  • Author/Authors

    Sandra A. Reza L?pez، نويسنده , , Abraham N. Poon، نويسنده , , Ignatius M.Y. Szeto، نويسنده , , David W.L. Ma، نويسنده , , G. Harvey Anderson، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    5
  • From page
    877
  • To page
    881
  • Abstract
    High multivitamin intake (HV) during pregnancy increases body fat and weight and alters glucose and fatty acid metabolism in Wistar rat offspring. This study investigated the expression of peroxisome-proliferator activated receptors (PPARs) genes involved in regulation of glucose and fatty acid metabolism in their tissues. Dams received the AIN-93G diet with either the regular (RV) or 10-fold multivitamins (HV) during pregnancy. Male offspring were weaned to either the RV diet (RV-RV and HV-RV) or an obesogenic diet (RV-Ob and HV-Ob). Gene expression of PPARs in tissues was analyzed by real-time reverse transcriptase polymerase chain reaction. Gestational diet (GD) did not affect PPARs gene expression in offspring at either birth or weaning. In liver, at 14 weeks postweaning, PPAR-γ was 30% lower in the HV-RV and 30% higher in HV-Ob than in the RV-RV group [GD P=.76, postweaning diet (PD) P=.19, interaction P=.02, by two-way analysis of variance]. In muscle, PPAR-α expression was affected by GD and PD (GD P=.05, PD P<.01, interaction P=.07). In adipose tissue, PPAR-α expression was higher in all groups compared to RV-RV (GD P=.25, PD P=.85, interaction P=.03). PPAR-γ mRNA levels correlated with abdominal fat (r= 0.45, P<.05) and insulin resistance index (r= 0.39, P<.05). In liver, PPAR-γ expression correlated with insulin resistance index in offspring from RV (r=−0.62, P<.05), but not in those from HV dams (r= 0.13, P>.05). In conclusion, the HV diet during pregnancy interacts with postweaning diets in determining the expression of PPARs genes in a tissue- and age-dependent manner and uncouples the relationship between these genes and glucose regulation and fat mass in the rat offspring.
  • Keywords
    Obesogenic , PPARs , Fetal programming , Vitamins , Insulin resistance , Glucose regulation
  • Journal title
    The Journal of Nutritional Biochemistry
  • Serial Year
    2013
  • Journal title
    The Journal of Nutritional Biochemistry
  • Record number

    1300202