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Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms

Nitrate and perchlorate competitively inhibit iodide uptake in thyrocytes and disrupt thyroid function in rodents and humans. Our previous data indicated that the intrauterine exposure to perchlorate or nitrate induced thyroid dysfunction in the offspring rats during adult life. Therefore, this stud...

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Autor principal: Serrano-Nascimento, Caroline
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8090546/
http://dx.doi.org/10.1210/jendso/bvab048.1016
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author Serrano-Nascimento, Caroline
author_facet Serrano-Nascimento, Caroline
author_sort Serrano-Nascimento, Caroline
collection PubMed
description Nitrate and perchlorate competitively inhibit iodide uptake in thyrocytes and disrupt thyroid function in rodents and humans. Our previous data indicated that the intrauterine exposure to perchlorate or nitrate induced thyroid dysfunction in the offspring rats during adult life. Therefore, this study aimed to investigate the effects of these endocrine disruptors during the embryonic period on the endoderm and thyroid development. Additionally, it was also investigated the role of epigenetic modifications in the programming of gene expression of the evaluated tissues. For this purpose, CD1 pregnant female mice received filtered water (control) or filtered water supplemented with sodium perchlorate (0.3 or 1 ppm) or sodium nitrate (20 or 50 ppm). At gestational day 16.5 (GD16.5), the embryonic thyroid lobes were collected and processed for molecular analysis. Besides the in vivo model, the effect of these thyroid disruptors was also evaluated during the differentiation of mouse embryonic stem cells (mESc) into endoderm and thyroid cells. Endoderm cells differentiation was achieved through the treatment of mESc with several growth factors. During the entire protocol the cells were exposed or not to sodium perchlorate or sodium nitrate (10(-5) or 10(-7) M). The effects of perchlorate and nitrate were also evaluated during the differentiation of mESC into thyroid cells. For this purpose, mESC-derived endoderm cells were transiently transfected with Pax8/Nkx2.1 expressing vectors. During the endoderm-to-thyrocytes differentiation protocol, the cells were also exposed or not to perchlorate or nitrate (10(-5) or 10(-7) M). The results demonstrated that both thyroid disruptors reduced the mRNA and protein expression of several endoderm markers (Foxa1, Gata4, Sox17) in the mESc-derived endoderm cells. Moreover, perchlorate or nitrate treatment also reduced the expression of thyroid transcription factors (Pax8, Nkx2.1, Foxe1) and thyroid differentiation markers (Slc5a5, Tpo, Tshr, Tg) both in the embryonic thyroid lobes and in the mESc-derived thyrocytes. Epigenetic mechanisms related to transcription repression seem to be involved in the gene expression downregulation both in vivo and in vitro, since perchlorate and nitrate increased the mRNA expression of Dnmt1, Dnmt3, Hdac and reduced the expression of Hat. Additionally, the methylation of histone H3 was increased, and the acetylation status of this histone was decreased in perchlorate- or nitrate-exposed thyroid lobes and mESc-derived endoderm/thyroid cells. In conclusion, our data strongly suggest that the programming of thyroid dysfunction induced by intrauterine exposure to perchlorate or nitrate involve the disruption of the endoderm and thyroid development during embryonic life through epigenetic mechanisms.
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spelling pubmed-80905462021-05-05 Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms Serrano-Nascimento, Caroline J Endocr Soc Endocrine Disruption Nitrate and perchlorate competitively inhibit iodide uptake in thyrocytes and disrupt thyroid function in rodents and humans. Our previous data indicated that the intrauterine exposure to perchlorate or nitrate induced thyroid dysfunction in the offspring rats during adult life. Therefore, this study aimed to investigate the effects of these endocrine disruptors during the embryonic period on the endoderm and thyroid development. Additionally, it was also investigated the role of epigenetic modifications in the programming of gene expression of the evaluated tissues. For this purpose, CD1 pregnant female mice received filtered water (control) or filtered water supplemented with sodium perchlorate (0.3 or 1 ppm) or sodium nitrate (20 or 50 ppm). At gestational day 16.5 (GD16.5), the embryonic thyroid lobes were collected and processed for molecular analysis. Besides the in vivo model, the effect of these thyroid disruptors was also evaluated during the differentiation of mouse embryonic stem cells (mESc) into endoderm and thyroid cells. Endoderm cells differentiation was achieved through the treatment of mESc with several growth factors. During the entire protocol the cells were exposed or not to sodium perchlorate or sodium nitrate (10(-5) or 10(-7) M). The effects of perchlorate and nitrate were also evaluated during the differentiation of mESC into thyroid cells. For this purpose, mESC-derived endoderm cells were transiently transfected with Pax8/Nkx2.1 expressing vectors. During the endoderm-to-thyrocytes differentiation protocol, the cells were also exposed or not to perchlorate or nitrate (10(-5) or 10(-7) M). The results demonstrated that both thyroid disruptors reduced the mRNA and protein expression of several endoderm markers (Foxa1, Gata4, Sox17) in the mESc-derived endoderm cells. Moreover, perchlorate or nitrate treatment also reduced the expression of thyroid transcription factors (Pax8, Nkx2.1, Foxe1) and thyroid differentiation markers (Slc5a5, Tpo, Tshr, Tg) both in the embryonic thyroid lobes and in the mESc-derived thyrocytes. Epigenetic mechanisms related to transcription repression seem to be involved in the gene expression downregulation both in vivo and in vitro, since perchlorate and nitrate increased the mRNA expression of Dnmt1, Dnmt3, Hdac and reduced the expression of Hat. Additionally, the methylation of histone H3 was increased, and the acetylation status of this histone was decreased in perchlorate- or nitrate-exposed thyroid lobes and mESc-derived endoderm/thyroid cells. In conclusion, our data strongly suggest that the programming of thyroid dysfunction induced by intrauterine exposure to perchlorate or nitrate involve the disruption of the endoderm and thyroid development during embryonic life through epigenetic mechanisms. Oxford University Press 2021-05-03 /pmc/articles/PMC8090546/ http://dx.doi.org/10.1210/jendso/bvab048.1016 Text en © The Author(s) 2021. Published by Oxford University Press on behalf of the Endocrine Society. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs licence (http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) ), which permits non-commercial reproduction and distribution of the work, in any medium, provided the original work is not altered or transformed in any way, and that the work is properly cited. For commercial re-use, please contact journals.permissions@oup.com
spellingShingle Endocrine Disruption
Serrano-Nascimento, Caroline
Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title_full Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title_fullStr Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title_full_unstemmed Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title_short Perchlorate and Nitrate Treatments Disrupt the Endoderm and Thyroid Development Through Epigenetic Mechanisms
title_sort perchlorate and nitrate treatments disrupt the endoderm and thyroid development through epigenetic mechanisms
topic Endocrine Disruption
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8090546/
http://dx.doi.org/10.1210/jendso/bvab048.1016
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