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Northeastern University

Superfund Research Program

Toxicant Activation of Pathways of Preterm Birth in Gestational Tissue

Project Leader: Rita Loch-Caruso (University of Michigan)
Grant Number: P42ES017198
Funding Period: 2010-2025
View this project in the NIH Research Portfolio Online Reporting Tools (RePORT)

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Project Summary (2014-2020)

Preterm birth is expensive, dangerous and prevalent. In Puerto Rico, the preterm birth rate is the highest of any jurisdiction in the United States and below only Malawi globally. Epidemiologic studies associate environmental chemical exposures with preterm birth. Although the placenta and extraplacental membranes play vital roles in pregnancy, the potential for environmental contaminants to contribute to preterm birth through actions on these tissues has hardly been explored. Through studies of toxicant actions on placental and extraplacental tissues, Rita Loch-Caruso, Ph.D., and her research team will identify toxicologic explanations for epidemiologic associations between exposure to select environmental contaminants and preterm birth. Working closely with the PROTECT team, the researchers will continue study of two environmental contaminants that are common to Superfund sites, di-2-ethylhexyl phthalate (DEHP) and trichloroethylene (TCE). Although current popular models of preterm birth focus on activation of pro-inflammatory pathways in placenta and extraplacental membranes leading to production of prostaglandins that ultimately stimulate labor, recent reports suggest that oxidative stress due to increased generation of reactive oxygen species (ROS) plays an important role. This project builds on the researchers’ exciting and novel findings that bioactive metabolites of DEHP and TCE stimulate oxidative stress, inflammatory mediators, and cell death in human placental cells – actions associated with preterm birth and low birth weight in humans and in animal models. Moreover, working with a model pro-oxidant that generates intracellular ROS, the researchers have identified a key cell signaling pathway important in these responses. In pregnant rats, TCE exerted effects consistent with the responses observed in vitro with a TCE metabolite.

An important objective of the ongoing experiments is to measure oxidative stress and inflammatory response biomarkers in pregnant rats exposed to DEHP and TCE, and associate these biomarkers with adverse birth outcomes using histology to assess placental pathology, and using immunoassay, mRNA analysis, and IHC to assess placenta, maternal blood, and amniotic fluid. In addition, the researchers are defining the ROS-sensitive mechanisms that link DEHP and TCE to downstream events associated with preterm birth in experiments conducted with various in vitro models, including a human placental cell line, primary human placental trophoblasts, primary placental macrophages, and transwell cultures of human extraplacental membranes exposed in vitro to DEHP and TCE metabolites. In an aim new to this project, the researchers are defining toxicant-microbial interactions for infection of human extraplacental membranes in vitro. This project provides novel data on mechanisms by which environmental toxicants increase women’s risk for preterm birth. As part of this collaborative Center, the project interacts bidirectionally with exposure science and epidemiology studies.

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