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Obesity downregulates lipid metabolism genes in first trimester placenta

Aisha Rasool, Taysir Mahmoud, Begüm Aydoğan Mathyk, Tomoko Kaneko-Tarui, Danielle Roncari, Katharine O. White, Perrie O’Tierney-Ginn

2022Scientific Reports26 citationsDOIOpen Access PDF

Abstract

Abstract Placentas of obese women have low mitochondrial β-oxidation of fatty acids (FA) and accumulate lipids in late pregnancy. This creates a lipotoxic environment, impairing placental efficiency. We hypothesized that placental FA metabolism is impaired in women with obesity from early pregnancy. We assessed expression of key regulators of FA metabolism in first trimester placentas of lean and obese women. Maternal fasting triglyceride and insulin levels were measured in plasma collected at the time of procedure. Expression of genes associated with FA oxidation (FAO; ACOX1, CPT2, AMPKα), FA uptake (LPL, LIPG, MFSD2A), FA synthesis (ACACA) and storage (PLIN2) were significantly reduced in placentas of obese compared to lean women. This effect was exacerbated in placentas of male fetuses. Placental ACOX1 protein was higher in women with obesity and correlated with maternal circulating triglycerides. The PPARα pathway was enriched for placental genes impacted by obesity, and PPARα antagonism significantly reduced 3 H-palmitate oxidation in 1 st trimester placental explants. These results demonstrate that obesity and hyperlipidemia impact placental FA metabolism as early as 7 weeks of pregnancy.

Topics & Concepts

EndocrinologyPlacentaPregnancyInternal medicineObesityTriglycerideLipid metabolismBiologyBeta oxidationMetabolismMedicineFetusCholesterolGeneticsAdipose Tissue and MetabolismBirth, Development, and HealthGestational Diabetes Research and Management
Obesity downregulates lipid metabolism genes in first trimester placenta | Litcius