Di-2-ethylhexyl phthalate affects zinc metabolism and neurogenesis in the developing rat brain

Abstract

We previously observed that developmental marginal zinc deficiency affects neurogenesis. Maternal phthalate exposure could disrupt fetal zinc homeostasis by triggering an acute phase response, causing maternal liver zinc retention that limits zinc availability to the fetus. Thus, we currently investigated whether exposure to di-2-ethylhexyl phthalate (DEHP) during gestation in rats alters fetal brain neurogenesis by impairing zinc homeostasis. Dams consumed an adequate (25 μg zinc/g diet) (C) or a marginal zinc deficient (MZD) (10 μg zinc/g diet) diet, without or with DEHP (300 mg/kg BW) (C + DEHP, MZD + DEHP) from embryonic day (E) 0 to E19. To evaluate neurogenesis we measured parameters of neural progenitor cells (NPC) proliferation and differentiation. Maternal exposure to DEHP and/or zinc deficiency lowered fetal brain cortical tissue (CT) zinc concentrations. Transcription factors involved in NPC proliferation (PAX6, SOX2, EMX1), differentiation (TBR2, TBR1) and mature neurons (NeuN) were lower in MZD, MZD + DEHP and C + DEHP than in C E19 brain CT, being the lowest in the MZD + DEHP group. VGLUT1 levels, a marker of glutamatergic neurons, showed a similar pattern. Levels of a marker of GABAergic neurons, GAD65, did not vary among groups. Phosphorylated ERK1/2 levels were reduced by both MZD and DEHP, and particularly in the MZD + DEHP group. MEHP-treated human neuroblastoma IMR-32 cells and E19 brains from DEHP-treated dams showed that the zinc-regulated phosphatase PP2A can be in part responsible for DEHP-mediated ERK1/2 downregulation and impaired neurogenesis. Overall, gestational exposure to DEHP caused secondary zinc deficiency and impaired neurogenesis. These harmful effects could have long-term consequences on the adult offspring brain structure and function.