Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.

Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.

Triclocarban (TCC) is among the top 10 most commonly detected wastewater contaminants in both concentration and frequency. Its presence in water, as well as its propensity to bioaccumulate, has raised numerous questions about potential endocrine and developmental effects. Here, we investigated wheth...

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Main Authors: Heather A Enright, Miranda J S Falso, Michael A Malfatti, Victoria Lao, Edward A Kuhn, Nicholas Hum, Yilan Shi, Ana Paula Sales, Kurt W Haack, Kristen S Kulp, Bruce A Buchholz, Gabriela G Loots, Graham Bench, Kenneth W Turteltaub
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5549899?pdf=render
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spelling doaj-3c1c76023ef34ef2ae7d14b0cff64e432020-11-25T01:45:49ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01128e018199610.1371/journal.pone.0181996Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.Heather A EnrightMiranda J S FalsoMichael A MalfattiVictoria LaoEdward A KuhnNicholas HumYilan ShiAna Paula SalesKurt W HaackKristen S KulpBruce A BuchholzGabriela G LootsGraham BenchKenneth W TurteltaubTriclocarban (TCC) is among the top 10 most commonly detected wastewater contaminants in both concentration and frequency. Its presence in water, as well as its propensity to bioaccumulate, has raised numerous questions about potential endocrine and developmental effects. Here, we investigated whether exposure to an environmentally relevant concentration of TCC could result in transfer from mother to offspring in CD-1 mice during gestation and lactation using accelerator mass spectrometry (AMS). 14C-TCC (100 nM) was administered to dams through drinking water up to gestation day 18, or from birth to post-natal day 10. AMS was used to quantify 14C-concentrations in offspring and dams after exposure. We demonstrated that TCC does effectively transfer from mother to offspring, both trans-placentally and via lactation. TCC-related compounds were detected in the tissues of offspring with significantly higher concentrations in the brain, heart and fat. In addition to transfer from mother to offspring, exposed offspring were heavier in weight than unexposed controls demonstrating an 11% and 8.5% increase in body weight for females and males, respectively. Quantitative real-time polymerase chain reaction (qPCR) was used to examine changes in gene expression in liver and adipose tissue in exposed offspring. qPCR suggested alterations in genes involved in lipid metabolism in exposed female offspring, which was consistent with the observed increased fat pad weights and hepatic triglycerides. This study represents the first report to quantify the transfer of an environmentally relevant concentration of TCC from mother to offspring in the mouse model and evaluate bio-distribution after exposure using AMS. Our findings suggest that early-life exposure to TCC may interfere with lipid metabolism and could have implications for human health.http://europepmc.org/articles/PMC5549899?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Heather A Enright
Miranda J S Falso
Michael A Malfatti
Victoria Lao
Edward A Kuhn
Nicholas Hum
Yilan Shi
Ana Paula Sales
Kurt W Haack
Kristen S Kulp
Bruce A Buchholz
Gabriela G Loots
Graham Bench
Kenneth W Turteltaub
spellingShingle Heather A Enright
Miranda J S Falso
Michael A Malfatti
Victoria Lao
Edward A Kuhn
Nicholas Hum
Yilan Shi
Ana Paula Sales
Kurt W Haack
Kristen S Kulp
Bruce A Buchholz
Gabriela G Loots
Graham Bench
Kenneth W Turteltaub
Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
PLoS ONE
author_facet Heather A Enright
Miranda J S Falso
Michael A Malfatti
Victoria Lao
Edward A Kuhn
Nicholas Hum
Yilan Shi
Ana Paula Sales
Kurt W Haack
Kristen S Kulp
Bruce A Buchholz
Gabriela G Loots
Graham Bench
Kenneth W Turteltaub
author_sort Heather A Enright
title Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
title_short Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
title_full Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
title_fullStr Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
title_full_unstemmed Maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
title_sort maternal exposure to an environmentally relevant dose of triclocarban results in perinatal exposure and potential alterations in offspring development in the mouse model.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description Triclocarban (TCC) is among the top 10 most commonly detected wastewater contaminants in both concentration and frequency. Its presence in water, as well as its propensity to bioaccumulate, has raised numerous questions about potential endocrine and developmental effects. Here, we investigated whether exposure to an environmentally relevant concentration of TCC could result in transfer from mother to offspring in CD-1 mice during gestation and lactation using accelerator mass spectrometry (AMS). 14C-TCC (100 nM) was administered to dams through drinking water up to gestation day 18, or from birth to post-natal day 10. AMS was used to quantify 14C-concentrations in offspring and dams after exposure. We demonstrated that TCC does effectively transfer from mother to offspring, both trans-placentally and via lactation. TCC-related compounds were detected in the tissues of offspring with significantly higher concentrations in the brain, heart and fat. In addition to transfer from mother to offspring, exposed offspring were heavier in weight than unexposed controls demonstrating an 11% and 8.5% increase in body weight for females and males, respectively. Quantitative real-time polymerase chain reaction (qPCR) was used to examine changes in gene expression in liver and adipose tissue in exposed offspring. qPCR suggested alterations in genes involved in lipid metabolism in exposed female offspring, which was consistent with the observed increased fat pad weights and hepatic triglycerides. This study represents the first report to quantify the transfer of an environmentally relevant concentration of TCC from mother to offspring in the mouse model and evaluate bio-distribution after exposure using AMS. Our findings suggest that early-life exposure to TCC may interfere with lipid metabolism and could have implications for human health.
url http://europepmc.org/articles/PMC5549899?pdf=render
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