Regulatory functions of a non-ligand-binding thyroid hormone receptor isoform.

T Hermann, X K Zhang, M Tzukerman, K N Wills, G Graupner, M Pfahl
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引用次数: 24

Abstract

Gene regulation by thyroid hormones is mediated through multiple nuclear receptors. Only some of these thyroid hormone receptor (TR) isoforms become transcriptional enhancers in the presence of the thyroid hormone T3. Here we analyze the regulatory function of the human TR alpha 2 isoform. This protein does not bind T3 and is not a transcriptional activator of thyroid hormone-responsive elements (TRE). Transfected TR alpha 2 functions as a constitutive repressor of the transcriptional activators TR alpha 1 and TR beta 1 but also represses heterologous receptors, including the retinoic acid receptor and the estrogen receptor, which can activate TRE-controlled genes. TR alpha 2 protein showed strongly reduced DNA binding to a palindromic TRE when compared with the active TRs. Hybrid receptor analysis revealed that the special properties of the TR alpha 2 protein, including its repressor function and DNA binding characteristics, are intrinsic properties of its carboxyterminus and can be transferred to other receptors. Although it has been shown that the active TRs can act as repressors and silencers due to their strong DNA binding in the absence of hormone, our data show that TR alpha 2 is unlikely to inhibit TRs and other receptors through a competitive DNA binding mechanism. Antibody gel shift experiments suggest that repression by TR alpha 2 might result from interaction with active receptors. Thus, the receptor-like TR alpha 2 isoform differs from typical nuclear receptors in its DNA-binding and ligand-binding properties and appears to regulate the activity of other receptors via protein-protein interaction.

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非配体结合甲状腺激素受体异构体的调节功能。
甲状腺激素的基因调控通过多个核受体介导。只有一些甲状腺激素受体(TR)亚型在甲状腺激素T3存在时成为转录增强子。在这里,我们分析了人类TR α 2亚型的调控功能。该蛋白不结合T3,也不是甲状腺激素应答元件(TRE)的转录激活因子。转染后的TR α 2作为转录激活因子TR α 1和TR β 1的组成抑制因子,但也抑制异源受体,包括维甲酸受体和雌激素受体,这些受体可以激活tre1控制的基因。与活性TRs相比,TR α 2蛋白与回文TRs的DNA结合明显减少。杂交受体分析表明,TR α 2蛋白的特殊特性,包括其抑制功能和DNA结合特性,是其羧基端固有的特性,可以转移到其他受体上。尽管已有研究表明,在缺乏激素的情况下,活性TRs由于其强大的DNA结合而可以作为抑制物和沉默物,但我们的数据表明,TR α 2不太可能通过竞争性DNA结合机制抑制TRs和其他受体。抗体凝胶移位实验表明,TR α 2的抑制可能是与活性受体相互作用的结果。因此,受体样的TR α 2异构体与典型的核受体在dna结合和配体结合特性上不同,似乎通过蛋白质-蛋白质相互作用调节其他受体的活性。
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