King, T. L.; Prifti, K. K.; Gill, R. M.; England, S. K.; Frolova, A. I.

Emerging evidence indicates that the maternal in utero environment has enduring effects on offspring neurodevelopment. The obesity epidemic in the United States affects nearly one-third of women before pregnancy, potentially predisposing offspring to harmful developmental conditions. Glucose, the primary energy source for the brain, is highly regulated by facilitative diffusion glucose transporters (GLUTs). However, our understanding of how maternal obesity influences perinatal cerebral glucose metabolism remains limited. We hypothesized that maternal obesity is associated with altered expression of key GLUTs and dysregulated energy-sensing mechanisms in the fetal brain. Female C57BL/6J mice were randomly assigned to either a control diet (CON) or an obesogenic diet (DIO) (60% kcal from fat, 17.5% kcal from sucrose) for 10 weeks, time-mated with control males, and fed their respective diets throughout gestation. At 18.5 days post coitum, fetal brain tissue was collected for protein analysis. DIO diet did not affect litter size, offspring body weight, or brain weight when compared to CON. Whole brain GLUT1 expression was elevated only in female DIO offspring, while GLUT3 and GLUT4 expression was increased in all DIO offspring without modification by sex. However, maternal diet was not associated with differences in the activation of energy regulatory pathways adenosine monophosphate-activated protein kinase (AMPK) or the nutrient-sensing pathway mechanistic target of rapamycin (mTOR) in the fetal brain. These findings suggest that maternal obesogenic diet alters glucose transporter expression in the fetal brain, indicating a potential disruption in cerebral glucose metabolism during critical periods of perinatal development.