Maternal undernutrition during late gestation-induced intrauterine growth restriction in the rat is associated with impaired placental GLUT3 expression, but does not correlate with endogenous corticosterone levels

Abstract: Fetal intrauterine growth restriction (IUGR) is a frequently occurring and serious complication of pregnancy. Infants exposed to IUGR are at risk for numerous perinatal morbidities, including hypoglycemia in the neonatal period, as well as increased risk of later physical and/or mental impairments, cardiovascular disease and non-insulin-dependent diabetes mellitus. Fetal growth restriction most often results from uteroplacental dysfunction during the later stage of pregnancy. As glucose, which is the most abun… Show more

“…75,76 Impaired function of SLC2A3/ GLUT3 (solute carrier family 2A3/glucose transporter 3), which is involved in fetoplacental growth and metabolism, has been linked with intrauterine growth restriction and adiposity in animal models. [77][78][79] Although twin numbers are relatively small, the associations we found do support the hypothesis that epigenetic factors accumulated in utero can contribute to low birthweight and predisposition to complex diseases in later life. Further studies are needed to reveal more about these links.…”

Expression discordance of monozygotic twins at birth: Effect of intrauterine environment and a possible mechanism for fetal programming

“…75,76 Impaired function of SLC2A3/ GLUT3 (solute carrier family 2A3/glucose transporter 3), which is involved in fetoplacental growth and metabolism, has been linked with intrauterine growth restriction and adiposity in animal models. [77][78][79] Although twin numbers are relatively small, the associations we found do support the hypothesis that epigenetic factors accumulated in utero can contribute to low birthweight and predisposition to complex diseases in later life. Further studies are needed to reveal more about these links.…”

Expression discordance of monozygotic twins at birth: Effect of intrauterine environment and a possible mechanism for fetal programming

“…Some investigators have proposed that the key is increased fetal exposure to glucocorticoids (9,76), caused by elevated maternal glucocorticoid levels (as a result of stress), by increased passage of glucocorticoids to the fetus, or by activation of the fetal hypothalamic-pituitary-adrenal axis (HPA). Fetal corticosterone levels have been reported to be increased by maternal food restriction (77,78) but not by maternal protein restriction (79). Administration of dexamethasone, a synthetic glucocorticoid that is not inactivated by the placenta (see below), to pregnant rats or sheep on normal diet leads to hypertension in the offspring (9,11,21,48), supporting the hypothesis.…”

Prenatal Programming of Hypertension

“…At day 21 of pregnancy plasma corticosterone levels were increased. Correspondingly, placental GLUT3 protein was decreased, GLUT1 and GLUT4 protein levels were not affected by maternal feeding regimen and therefore enhanced corticosterone level [148].…”

The Effects of Glucocorticoids on Fetal and Placental Development