Impact of chlorpyrifos on human villous trophoblasts and chorionic villi.

Placental barrier regulates maternal-fetal interchange protecting the baby from damage caused by substances found in the uterine environment or circulating in the vascular system. Organophosphate (OP) pesticides are a paramount group of environmental pollutants used in intensive agriculture for protection against diseases and pests. While many studies have reported an increased risk of pregnancy alterations in pregnant women exposed to OPs, few have analyzed the effects caused by these pesticides in the placenta. Herein, we evaluated the effects of chlorpyrifos (CPF), one of the most widely used OP insecticides, on human placenta using in vitro and ex vivo exposure models. Villous cytotrophoblast cells isolated from normal human term placentas maintained their cell viability, differentiated into syncytiotrophoblast-like structures, and increased the expression of ß-hCG, ABCG2, and P-gp in the presence of CPF at concentrations of 10 to 100µM. The same doses of CPF induced marked changes in chorionic villi samples. Indeed, CPF exposure increased stroma cell apoptosis, altered villi matrix composition, basement membrane thickness, and trophoblastic layer integrity. Histomorphological and ultrastructural alterations are compatible with those found in placentas where maternal-placenta injury is chronic and able to impair the placental barrier function and nutrient transport from mother to the fetus. Our study shows that placental ex vivo exposure to CPF produces tissue alterations and suggest that human placenta is a potential target of CPF toxicity. In addition, it highlights the importance of using different models to assess the effects of a toxic on human placenta.

Low oxygen tension induces Krüppel-Like Factor 6 expression in trophoblast cells.

The transcription factor Krüppel-Like Factor 6 (KLF6) has important roles in cell differentiation, angiogenesis, apoptosis, and proliferation. Furthermore, there is evidence that KLF6 is required for proper placental development. While oxygen is a critical mediator of trophoblast differentiation and function, the involvement of oxygen in the regulation of KLF6 expression remains unexplored. In the present study we examined the expression of KLF6 in placental tissue from uncomplicated and preeclamptic pregnancies, the latter often characterized by an inadequately perfused placenta. We also determined the effect of hypoxia and the involvement of Hypoxia-Inducible Factor 1α (HIF-1α) on the expression of KLF6 in cultured trophoblast cells and placental tissues. Results revealed that villous, interstitial and endovascular extravillous cytotrophoblasts from placentas from normal and preeclamptic pregnancies express KLF6. In addition, KLF6 immunoreactivity was higher in the placental bed of preeclamptic pregnancies than in those of uncomplicated pregnancies. We demonstrated that hypoxia induced an early and transient increase in KLF6 protein levels in HTR8/SVneo extravillous cytotrophoblast cells and in placental explants. Reoxygenation returned KLF6 protein to basal levels. Moreover, hypoxia-induced up-regulation of KLF6 expression was dependent on HIF-1α as revealed by siRNA knockdown in HTR8/SVneo cells. These results indicate that KLF6 may mediate some of the effects of hypoxia in placental development. The regulation of KLF6 protein levels by oxygen has significant implications for understanding its putative role in diseases affected by tissue hypoxia.

The organophosphate chlorpyrifos disturbs redox balance and triggers antioxidant defense mechanisms in JEG-3 cells.

INTRODUCTION: Reactive oxygen species (ROS) are produced by a number of physiological and pathological processes which influence the function of a diverse array of cellular events. An imbalance between ROS generation and elimination was reported for different environmental xenobiotics exposure. Here, we analyzed the effect of chlorpyrifos (CPF) on the JEG-3 cell antioxidant defense in conditions where cell viability and morphology were not altered. METHODS: Acetylcholinesterase (AChE) activity, reduced glutathione (GSH) content and catalase (CAT) antioxidant enzyme activity were measured by biochemical studies. ROS production was detected using the fluorogenic probe 2',7'-dichlorodihydrofluorescein diacetate. The transcript level of superoxide dismutase enzyme 1 (SOD1), glutathione reductase (GR), heme oxygenase-1 (HO-1), and nuclear factor E2-related factor 2 (Nrf2) as well as Nrf2 protein amount were analyzed by quantitative real time PCR and Western blot, respectively. RESULTS: The results showed that CPF inhibited AChE activity, induced ROS production, upregulated CAT activity, and decreased GSH concentration. In response to CPF exposure, GR and HO-1 mRNA levels were increased with no changes in SOD1 mRNA. Furthermore, CPF significantly augmented Nrf2 at both mRNA and protein levels trigging the antioxidant status by increasing nuclear Nrf2 translocation. DISCUSSION AND CONCLUSION: Taken together, these data indicate that JEG-3 cells are able to attenuate the oxidative stress induced by CPF through the adaptive activation of the Nrf2/ARE pathway.