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多氯联苯(Aroclor 1254)对发育中大鼠大脑的甲状腺激素反应并非均一地产生激动剂作用。

Polychlorinated biphenyls (Aroclor 1254) do not uniformly produce agonist actions on thyroid hormone responses in the developing rat brain.

作者信息

Bansal Ruby, Zoeller R Thomas

机构信息

Department of Biology, University of Massachusetts, Amherst, Massachusetts 01003, USA.

出版信息

Endocrinology. 2008 Aug;149(8):4001-8. doi: 10.1210/en.2007-1774. Epub 2008 Apr 17.

DOI:10.1210/en.2007-1774
PMID:18420739
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2488245/
Abstract

Thyroid hormone (TH) is essential for normal brain development, and polychlorinated biphenyls (PCBs) are known to interfere with TH action in the developing brain. Thus, it is possible that the observed neurotoxic effects of PCB exposure in experimental animals and humans are mediated in part by their ability to interfere with TH signaling. PCBs may interfere with TH signaling by reducing circulating levels of TH, acting as TH receptor analogs, or both. If PCBs act primarily by reducing serum TH levels, then their effects should mimic those of low TH. In contrast, if PCBs act primarily as TH agonists in the developing brain, then they should mimic the effect of T(4) in hypothyroid animals. We used a two-factor design to test these predictions. Both hypothyroidism (Htx) and/or PCB treatment reduced serum free and total T(4) on postnatal d 15. However, only Htx increased pituitary TSHbeta expression. RC3/neurogranin expression was decreased by Htx and increased by PCB treatment. In contrast, Purkinje cell protein-2 expression was reduced in hypothyroid animals and restored by PCB treatment. Finally, PCB treatment partially ameliorated the effect of Htx on the thickness of the external granule layer of the cerebellum. These studies demonstrate clearly that PCB exposure does not mimic the effect of low TH on several important TH-sensitive measures in the developing brain. However, neither did PCBs mimic T(4) in hypothyroid animals on all end points measured. Thus, PCBs exert a complex action on TH signaling in the developing brain.

摘要

甲状腺激素(TH)对于正常脑发育至关重要,而多氯联苯(PCBs)已知会干扰发育中大脑的TH作用。因此,在实验动物和人类中观察到的PCB暴露所致神经毒性效应,有可能部分是由其干扰TH信号传导的能力介导的。PCBs可能通过降低TH的循环水平、作为TH受体类似物或两者兼而有之来干扰TH信号传导。如果PCBs主要通过降低血清TH水平起作用,那么它们的效应应类似于低TH的效应。相反,如果PCBs在发育中的大脑中主要作为TH激动剂起作用,那么它们应模拟甲状腺功能减退动物中T4的效应。我们采用双因素设计来检验这些预测。甲状腺功能减退(Htx)和/或PCB处理均降低了出生后第15天的血清游离和总T4水平。然而,只有Htx增加了垂体TSHβ的表达。RC3/神经颗粒素的表达在Htx时降低,而在PCB处理时增加。相反,浦肯野细胞蛋白-2的表达在甲状腺功能减退动物中降低,而在PCB处理后恢复。最后,PCB处理部分改善了Htx对小脑外颗粒层厚度的影响。这些研究清楚地表明,PCB暴露在发育中的大脑中对几个重要的TH敏感指标并未模拟低TH的效应。然而,在所有测量的终点上,PCBs在甲状腺功能减退动物中也未模拟T4的效应。因此,PCBs在发育中的大脑中对TH信号传导发挥着复杂的作用。

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