State Key Laboratory of Environmental Chemistry and Eco-toxicology, Research Centre for Eco-environmental Sciences, Chinese Academy of Sciences, 18 Shuangqing Road, P.O. Box 2871, Beijing 100085, China.
Toxicol Appl Pharmacol. 2013 May 1;268(3):256-63. doi: 10.1016/j.taap.2013.01.026. Epub 2013 Feb 8.
Polybrominated diphenyl ethers (PBDEs) have been shown to disrupt thyroid hormone (TH) functions in experimental animals, and one of the proposed disruption mechanisms is direct binding of hydroxylated PBDE (OH-PBDE) to TH receptors (TRs). However, previous data on TH receptor binding and TH activity of OH-PBDEs were very limited and sometimes inconsistent. In the present paper, we examined the binding potency of ten OH-PBDEs with different degrees of bromination to TR using a fluorescence competitive binding assay. The results showed that the ten OH-PBDEs bound to TR with potency that correlated to their bromination level. We further examined their effect on TR using a coactivator binding assay and GH3 cell proliferation assay. Different TR activities of OH-PBDEs were observed depending on their degree of bromination. Four low-brominated OH-PBDEs (2'-OH-BDE-28, 3'-OH-BDE-28, 5-OH-BDE-47, 6-OH-BDE-47) were found to be TR agonists, which recruited the coactivator peptide and enhanced GH3 cell proliferation. However, three high-brominated OH-PBDEs (3-OH-BDE-100, 3'-OH-BDE-154, 4-OH-BDE-188) were tested to be antagonists. Molecular docking was employed to simulate the interactions of OH-PBDEs with TR and identify the structural determinants for TR binding and activity. According to the docking results, low-brominated OH-PBDEs, which are weak binders but TR agonists, bind with TR at the inner side of its binding pocket, whereas high-brominated compounds, which are potent binders but TR antagonists, reside at the outer region. These results indicate that OH-PBDEs have different activities on TR (agonistic or antagonistic), possibly due to their different binding geometries with the receptor.
多溴二苯醚 (PBDEs) 已被证明会在实验动物中扰乱甲状腺激素 (TH) 功能,而提出的一种扰乱机制是羟化多溴二苯醚 (OH-PBDE) 与 TH 受体 (TR) 的直接结合。然而,之前关于 OH-PBDE 对 TH 受体的结合和 TH 活性的数据非常有限,有时甚至相互矛盾。在本文中,我们使用荧光竞争结合测定法研究了十种不同溴化程度的 OH-PBDE 与 TR 的结合效力。结果表明,这十种 OH-PBDE 与 TR 的结合效力与它们的溴化程度相关。我们进一步使用共激活子结合测定法和 GH3 细胞增殖测定法研究了它们对 TR 的影响。不同的 OH-PBDE 对 TR 的活性取决于它们的溴化程度。观察到四种低溴化 OH-PBDE(2'-OH-BDE-28、3'-OH-BDE-28、5-OH-BDE-47、6-OH-BDE-47)是 TR 激动剂,它们募集共激活子肽并增强 GH3 细胞增殖。然而,三种高溴化 OH-PBDE(3-OH-BDE-100、3'-OH-BDE-154、4-OH-BDE-188)被测试为拮抗剂。分子对接被用来模拟 OH-PBDE 与 TR 的相互作用,并确定与 TR 结合和活性相关的结构决定因素。根据对接结果,低溴化 OH-PBDE 是弱结合但 TR 激动剂,它们与 TR 的结合部位在内侧,而高溴化化合物是强结合但 TR 拮抗剂,位于外侧。这些结果表明,OH-PBDE 对 TR 具有不同的活性(激动剂或拮抗剂),可能是由于它们与受体的结合几何形状不同。
