高氯酸盐对膳食碘化物甲状腺摄取的竞争性抑制并不能描述大鼠血清总T4和促甲状腺激素的扰动情况。

Competitive inhibition of thyroidal uptake of dietary iodide by perchlorate does not describe perturbations in rat serum total T4 and TSH.

作者信息

McLanahan Eva D, Andersen Melvin E, Campbell Jerry L, Fisher Jeffrey W

机构信息

Department of Environmental Health Sciences, University of Georgia, Athens, Georgia 30602-2102, USA.

出版信息

Environ Health Perspect. 2009 May;117(5):731-8. doi: 10.1289/ehp.0800111. Epub 2009 Jan 5.

DOI:10.1289/ehp.0800111

PMID:19479014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2685834/

Abstract

BACKGROUND

Perchlorate (ClO4(-)) is an environmental contaminant known to disrupt the thyroid axis of many terrestrial and aquatic species. ClO4(-) competitively inhibits iodide uptake into the thyroid at the sodium/iodide symporter and disrupts hypothalamic-pituitary-thyroid (HPT) axis homeostasis in rodents.

OBJECTIVE

We evaluated the proposed mode of action for ClO4(-)-induced rat HPT axis perturbations using a biologically based dose-response (BBDR) model of the HPT axis coupled with a physiologically based pharmacokinetic model of ClO4(-).

METHODS

We configured a BBDR-HPT/ClO4(-) model to describe competitive inhibition of thyroidal uptake of dietary iodide by ClO4(-) and used it to simulate published adult rat drinking water studies. We compared model-predicted serum thyroid-stimulating hormone (TSH) and total thyroxine (TT4) concentrations with experimental observations reported in these ClO4(-) drinking water studies.

RESULTS

The BBDR-HPT/ClO4(-) model failed to predict the ClO4(-)-induced onset of disturbances in the HPT axis. Using ClO4(-) inhibition of dietary iodide uptake into the thyroid, the model underpredicted both the rapid decrease in serum TT4 concentrations and the rise in serum TSH concentrations.

CONCLUSIONS

Assuming only competitive inhibition of thyroidal uptake of dietary iodide, BBDR-HPT/ClO4(-) model calculations were inconsistent with the rapid decrease in serum TT4 and the corresponding increase in serum TSH. Availability of bound iodide in the thyroid gland governed the rate of hormone secretion from the thyroid. ClO4(-) is translocated into the thyroid gland, where it may act directly or indirectly on thyroid hormone synthesis/secretion in the rat. The rate of decline in serum TT4 in these studies after 1 day of treatment with ClO4(-) appeared consistent with a reduction in thyroid hormone production/secretion. This research demonstrates the utility of a biologically based model to evaluate a proposed mode of action for ClO4(-) in a complex biological process.

摘要

背景

高氯酸盐（ClO4(-)）是一种环境污染物，已知会扰乱许多陆生和水生物种的甲状腺轴。ClO4(-)在钠/碘同向转运体处竞争性抑制碘摄取进入甲状腺，并扰乱啮齿动物的下丘脑-垂体-甲状腺（HPT）轴稳态。

目的

我们使用基于生物学的HPT轴剂量反应（BBDR）模型与基于生理学的ClO4(-)药代动力学模型，评估ClO4(-)诱导大鼠HPT轴扰动的拟议作用模式。

方法

我们构建了一个BBDR-HPT/ClO4(-)模型，以描述ClO4(-)对膳食碘摄取进入甲状腺的竞争性抑制，并使用它来模拟已发表的成年大鼠饮用水研究。我们将模型预测的血清促甲状腺激素（TSH）和总甲状腺素（TT4）浓度与这些ClO4(-)饮用水研究中报告的实验观察结果进行了比较。

结果

BBDR-HPT/ClO4(-)模型未能预测ClO4(-)诱导的HPT轴紊乱的发作。利用ClO4(-)对膳食碘摄取进入甲状腺的抑制作用，该模型低估了血清TT4浓度的快速下降和血清TSH浓度的上升。

结论

仅假设ClO4(-)对膳食碘摄取进入甲状腺具有竞争性抑制作用，BBDR-HPT/ClO4(-)模型计算结果与血清TT4的快速下降和血清TSH的相应增加不一致。甲状腺中结合碘的可用性决定了甲状腺激素分泌的速率。ClO4(-)转运进入甲状腺，在那里它可能直接或间接作用于大鼠甲状腺激素的合成/分泌。在这些研究中，用ClO4(-)治疗1天后血清TT4的下降速率似乎与甲状腺激素产生/分泌的减少一致。本研究证明了基于生物学的模型在评估ClO4(-)在复杂生物学过程中的拟议作用模式方面的实用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4873/2685834/24404ca049ec/ehp-117-731f1.jpg

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高氯酸盐对膳食碘化物甲状腺摄取的竞争性抑制并不能描述大鼠血清总T4和促甲状腺激素的扰动情况。

Competitive inhibition of thyroidal uptake of dietary iodide by perchlorate does not describe perturbations in rat serum total T4 and TSH.

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