Increased Alkaline Phosphatase in Cord Blood of Obese Diabetic Mothers Is Associated to Polyunstaurated Fatty Acid Levels

Abstract

Introduction: Recent studies indicate that alkaline phosphatase (ALP) may affect expression and activity of fatty acid (FA) transport proteins in placenta and other tissues. Objective: To evaluate if disturbed FA profile in offspring of gestational diabetes mellitus (GDM) with different maternal pregestational weight could be related to maternal or neonatal ALP. Methods: Prospective observational study of pregnant women recruited in the third trimester (25 controls, 23 lean-GDM, 20 obese-GDM). Fetal ultrasound was performed. At delivery, FAs were analyzed in placenta, maternal, and venous cord blood. Western blotting analysis of lipid carriers was performed in placenta. Results: Newborns from obese-GDM tended to higher birthweight (p = 0.059) than those from both lean-GDM and controls. ALP in maternal blood tended to be lower in GDM (p = 0.170) while increased significantly in cord blood of obese-GDM with respect to controls (p = 0.039). Saturated FA percentages in cord blood were significantly higher (p < 0.000), while polyunsaturated FA (PUFA) percentages were lower (p = 0.003) in both GDM, which could be due to a lower expression of major family domain 2a receptor (MFSD2a) in the placenta. Plasma ALP in the offspring of obese-GDM was inversely associated to cord essential PUFAs (β = –6.18, p = 0.005) and to placental MFSD2a (β = –38.46, p = 0.014). Conclusions: Cord PUFA and placental MFSD2a are decreased in both lean and obese-GDM pregnancies. Higher ALP in cord blood of obese-GDM could play a role in the FA levels in these pregnancies