Moore Linda B, Maglich Jodi M, McKee David D, Wisely Bruce, Willson Timothy M, Kliewer Steven A, Lambert Millard H, Moore John T
Nuclear Receptor Discovery Research, GlaxoSmithKline, Research Triangle Park, North Carolina 27709, USA.
Mol Endocrinol. 2002 May;16(5):977-86. doi: 10.1210/mend.16.5.0828.
The NR1I subfamily of nuclear receptors contains a phylogenetically diverse array of receptors related to the mammalian pregnane X receptor (PXR) (NR1I2) and constitutive androstane receptor (CAR) (NR1I3). We have carried out an extensive comparative analysis of this subgroup with representatives from fish, birds, amphibians, and mammals. Four novel receptors were isolated from fish, dog, pig, and monkey for this study and combined with a previously reported set of related receptors including human PXR, rabbit PXR, mouse PXR, chicken CXR, frog benzoate X receptors (BXRalpha, BXRbeta), and human and mouse CAR. A broad range of xenobiotics, steroids, and bile acids were tested for their ability to activate the ligand binding domain of each receptor. Three distinct groups of receptors were identified based on their pharmacological profiles: 1) the PXRs were activated by a broad range of xenobiotics and, along with the mammalian PXRs, included the chicken and fish receptors; 2) the CARs were less promiscuous, had high basal activities, and were generally repressed rather than activated by those compounds that modulated their activity; and 3) the BXRs were selectively activated by a subset of benzoate analogs and are likely to be specialized receptors for this chemical class of ligands. The PXRs are differentiated from the other NR1I receptors by a stretch of amino acids between helices 1 and 3, which we designate the H1-3 insert. This insert was present in the mammalian, chicken, and fish PXRs but absent in the CARs and BXRs. Modeling studies suggest that the H1-3 insert contributes to the promiscuity of the PXRs by facilitating the unwinding of helices-6 and -7, thereby expanding the ligand binding pocket.
核受体的NR1I亚家族包含一系列在系统发育上与哺乳动物孕烷X受体(PXR,NR1I2)和组成型雄甾烷受体(CAR,NR1I3)相关的受体。我们对该亚组与鱼类、鸟类、两栖动物和哺乳动物的代表进行了广泛的比较分析。本研究从鱼类、狗、猪和猴子中分离出四种新型受体,并将其与先前报道的一组相关受体相结合,这些受体包括人PXR、兔PXR、小鼠PXR、鸡CXR、青蛙苯甲酸X受体(BXRα、BXRβ)以及人和小鼠CAR。测试了多种外源性物质、类固醇和胆汁酸激活每种受体配体结合域的能力。根据其药理学特征鉴定出三组不同的受体:1)PXRs被多种外源性物质激活,与哺乳动物PXRs一起,包括鸡和鱼的受体;2)CARs的选择性较低,具有较高的基础活性,并且通常被调节其活性的那些化合物抑制而非激活;3)BXRs被一部分苯甲酸类似物选择性激活,可能是这类化学配体的特异性受体。PXRs与其他NR1I受体的区别在于螺旋1和3之间的一段氨基酸,我们将其命名为H1-3插入序列。该插入序列存在于哺乳动物、鸡和鱼的PXRs中,但在CARs和BXRs中不存在。建模研究表明,H1-3插入序列通过促进螺旋6和7的解旋,从而扩大配体结合口袋,有助于PXRs的多配体选择性。
