Maternal-placental-fetal drug metabolism is altered by late gestation undernutrition in the pregnant ewe.

BACKGROUND

Maternal undernutrition during pregnancy disrupts both fetal growth and development with perturbations to certain physiological processes within the maternal-fetal-placental unit, including metabolic function. However, it is unknown if hypoglycemia during pregnancy alters maternal-fetal-placental drug metabolism as mediated by cytochrome P450 (CYP) enzymes. Despite this, hypoglycemia reduces CYP enzyme activity in non-pregnant animals. We therefore hypothesised that in a sheep model of hypoglycemia induced by late gestation undernutrition (LGUN), maternal-fetal-placental CYP activity would be reduced, and that fetal glucose infusion (LGUN+G) would rescue reduced CYP activity.

METHODS

At 115d gestation (term, 150d), ewes were allocated to control (100% metabolic energy requirement (MER); n = 11), LGUN (50% MER; n = 7) or LGUN+G (50% MER + fetal glucose infusion; n = 6) and maintained on their diets until post-mortem. Maternal-fetal-placental CYP activity assays were performed at 131-133d gestation. Microsomes were isolated from placenta and fetal liver collected at 139-142d gestation and incubated with CYP-specific probe drugs. Metabolite concentrations were measured using Liquid Chromatography - tandem mass spectrometry (LC-MS/MS).

RESULTS

CYP2C19 and CYP3A were undetectable in placenta or fetal liver, and CYP1A2 was undetectable in the fetal liver. Placental-specific CYP1A2 and CYP2D6 activity and hepatic-specific CYP2D6 activity were unaffected by LGUN. Maternal-fetal-placental CYP1A2 activity was reduced in response to LGUN in the maternal compartment only.

CONCLUSIONS

Reduced maternal-fetal-placental CYP1A2 activity, but not placental-specific CYP1A2 activity, may lead to the developing fetus being exposed to increased concentrations of CYP1A2-specific substrates and suggests further consideration of drug dosing is required in instances of late gestation maternal undernutrition.