Schräder M, Müller K M, Nayeri S, Kahlen J P, Carlberg C
Clinique de Dermatologie, Hôpital Cantonal Universitaire, Genève, Switzerland.
Nature. 1994 Aug 4;370(6488):382-6. doi: 10.1038/370382a0.
The nuclear receptors for 1,25-dihydroxyvitamin D3 (VD) and 3,5,3'-triiodothyronine (T3), that is, VDRs and T3Rs respectively, control aspects of homeostasis, cell growth and differentiation. They activate transcription from response elements consisting of direct repeats, palindromes and inverted palindromes of a variety of hexameric core-binding motifs. VDRs bind preferentially to direct repeats spaced by three nucleotides, whereas T3Rs bind to direct repeats spaced by four nucleotides. VDRs and T3Rs can function as homodimers but heterodimerization with retinoid X or retinoic acid receptors increases their affinity for DNA in vitro and resulting transcriptional activity in vivo. We recently observed the formation of VDR-T3R heterodimers. Here we show that the polarity of the binding of such heterodimers to the VD response element of the rat 9K (relative molecular mass 9,000) calbindin gene promoter was 5'-T3R-VDR-3', whereas on the mouse 28K calbindin VD response element this polarity was reversed to 5'-VDR-T3R-3'. We also show that the ligand for the downstream receptor controls the transcriptional activity of the heterodimeric complex. Thus, polarity seems to be an important regulatory property of heterodimeric nuclear receptor complexes.
1,25 - 二羟维生素D3(VD)和3,5,3'-三碘甲状腺原氨酸(T3)的核受体,即分别为维生素D受体(VDRs)和甲状腺激素受体(T3Rs),控制着体内平衡、细胞生长和分化等方面。它们通过由各种六聚体核心结合基序的直接重复序列、回文序列和反向回文序列组成的反应元件激活转录。VDRs优先结合间隔三个核苷酸的直接重复序列,而T3Rs结合间隔四个核苷酸的直接重复序列。VDRs和T3Rs可以作为同二聚体发挥作用,但与视黄酸X受体或维甲酸受体的异二聚化会增加它们在体外对DNA的亲和力以及在体内产生的转录活性。我们最近观察到了VDR - T3R异二聚体的形成。在此我们表明,这种异二聚体与大鼠9K(相对分子质量9000)钙结合蛋白基因启动子的VD反应元件结合的极性为5'-T3R - VDR - 3',而在小鼠28K钙结合蛋白VD反应元件上,这种极性则反转至5'-VDR - T3R - 3'。我们还表明,下游受体的配体控制着异二聚体复合物的转录活性。因此,极性似乎是异二聚体核受体复合物的一种重要调节特性。
