Huang D B, Chen Y Q, Ruetsche M, Phelps C B, Ghosh G
Department of Chemistry and Biochemistry, University of California, San Diego, La Jolla, CA 92093, USA.
Structure. 2001 Aug;9(8):669-78. doi: 10.1016/s0969-2126(01)00635-9.
The proto-oncogene product c-Rel is a Rel/NF-kappaB family transcription factor that plays a critical role in lymphoid cell development and mediates CD28-induced expression of interleukin 2 (IL-2). The CD28 response element (CD28RE) in the IL-2 enhancer is nonameric and similar to the kappaB DNA target sites recognized by p65 homodimers.
We have determined and refined the X-ray crystal structure of the c-Rel homodimer complexed to the CD28RE DNA site, 5'-AGAAATTCC-3', to 2.85 A resolution. The c-Rel homodimer binds CD28RE in a mode similar to that observed in the p65/IL-8 kappaB crystallographic complex. Binding studies reveal that the c-Rel homodimer recognizes the CD28RE with higher affinity as compared to other canonical kappaB sequences despite the nonconsensus A:T base pair at the 5' end of the CD28RE. Preferential recognition of the CD28RE by c-Rel results from the direct contacts between the protein and the DNA as well as intrasubunit interactions between the beta(f)-beta(g) loop in the dimerization domain and the DNA-contacting loop L1 of the N-terminal domain. Not only do these loops have different conformations in other Rel/DNA crystallographic complexes, but they also contain two of the five oncogenic point mutations found in v-Rel.
The current structure indicates that a non-DNA-contacting loop in the dimerization domain and the DNA-contacting loop L1 may play critical roles in defining affinity and specificity. Two amino acid changes in these segments may account for the differential DNA binding by v-Rel as compared to that of c-Rel.
原癌基因产物c-Rel是一种Rel/NF-κB家族转录因子,在淋巴细胞发育中起关键作用,并介导CD28诱导的白细胞介素2(IL-2)表达。IL-2增强子中的CD28反应元件(CD28RE)为九聚体,与p65同二聚体识别的κB DNA靶位点相似。
我们已确定并将与CD28RE DNA位点5'-AGAAATTCC-3'复合的c-Rel同二聚体的X射线晶体结构精修至2.85 Å分辨率。c-Rel同二聚体以与p65/IL-8 κB晶体复合物中观察到的模式相似的方式结合CD28RE。结合研究表明,尽管CD28RE的5'端存在非共有A:T碱基对,但c-Rel同二聚体与其他典型κB序列相比,以更高的亲和力识别CD28RE。c-Rel对CD28RE的优先识别源于蛋白质与DNA之间的直接接触以及二聚化结构域中的β(f)-β(g)环与N端结构域的DNA接触环L1之间的亚基内相互作用。这些环不仅在其他Rel/DNA晶体复合物中具有不同的构象,而且还包含在v-Rel中发现的五个致癌点突变中的两个。
当前结构表明,二聚化结构域中的一个非DNA接触环和DNA接触环L1可能在定义亲和力和特异性方面起关键作用。与c-Rel相比,这些片段中的两个氨基酸变化可能解释了v-Rel与DNA结合的差异。
