Sun Z, Kitchingman G R
Department of Virology and Molecular Biology, St Jude Children's Research Hospital, Memphis, TN 38101-0318.
Nucleic Acids Res. 1994 Mar 11;22(5):850-60. doi: 10.1093/nar/22.5.850.
The octamer sequence ATGCAAAT is highly conserved in the promoter of immunoglobulin heavy and light chain genes and is one of the sequence motifs involved in the control of transcription of these genes. The promoter region of an human immunoglobulin heavy chain variable gene, the sole member of the VH6 gene family, was found to differ from other VH gene promoters: it contains neither the conserved octamer motif nor a heptamer sequence, and generally bears little resemblance to other VH gene transcriptional control regions. An imperfect octamer sequence with a single nucleotide substitution (AgGCAAAT) is located 108 bp upstream of the ATG translation start site, and 81 bp upstream of the transcription initiation site. We sought to determine which sequence elements within the VH6 promoter were responsible for transcription initiation by creating progressive deletions of a 1 kb fragment from this region and testing their ability to function as promoter elements in B and non-B cells (HeLa). The minimum fragment required for full promoter function was 110 bp, but a fragment with only 65 bp retained 30-50% activity in B cells. Similar levels of transcription were seen when the -146 bp promoter containing two point mutations in the imperfect octamer was tested. Mutation of a possible pyrimidine box sequence located downstream of the TATA box was shown to have only a minor effect (10-30%) on transcription when three nucleotides were changed. Surprisingly, CAT activity was not B cell-specific, as all constructs had virtually the same activity in several B cell lines and in HeLa cells. Removal of the TATA box led to a 50% reduction in CAT activity, and the region upstream of the TATA box functioned as a promoter in both orientations. The transcriptional activity of the VH6 promoter was virtually enhancer independent: only a minor increase was observed when the immunoglobulin or SV40 enhancer was added to the promoter construct. Electrophoretic mobility shift assays of transcription factor binding to the region around the imperfect octamer indicated that binding was weak when nuclear extracts from either B cells or HeLa cells were used. The amount of complex shifted was increased by mutating the imperfect octamer to a perfect one. Chimeras produced between the VH6 promoter and a B cell-specific promoter from a member of the human VH2 gene family demonstrated that the lack of tissue specificity was due to the absence of a repressor of non-B cell transcription in the VH6 promoter. These results indicate that the VH6 promoter is relatively simple, requiring little more than the TATA element and the imperfect octamer, and transcription from this promoter lacks B cell specificity and is not dependent on the enhancer element.
八聚体序列ATGCAAAT在免疫球蛋白重链和轻链基因的启动子中高度保守,是参与这些基因转录调控的序列基序之一。人们发现,人类免疫球蛋白重链可变基因(VH6基因家族的唯一成员)的启动子区域与其他VH基因启动子不同:它既不包含保守的八聚体基序,也没有七聚体序列,总体上与其他VH基因转录控制区域几乎没有相似之处。一个带有单核苷酸替换的不完美八聚体序列(AgGCAAAT)位于ATG翻译起始位点上游108 bp处,转录起始位点上游81 bp处。我们试图通过对该区域的1 kb片段进行逐步缺失,并测试它们在B细胞和非B细胞(HeLa细胞)中作为启动子元件的功能,来确定VH6启动子中的哪些序列元件负责转录起始。完全启动子功能所需的最小片段为110 bp,但一个只有65 bp的片段在B细胞中保留了30 - 50%的活性。当测试含有不完美八聚体中两个点突变的 - 146 bp启动子时,观察到了相似水平的转录。当位于TATA框下游的一个可能的嘧啶框序列的三个核苷酸发生改变时,对转录的影响很小(10 - 30%)。令人惊讶的是,CAT活性并非B细胞特异性的,因为所有构建体在几种B细胞系和HeLa细胞中的活性几乎相同。去除TATA框导致CAT活性降低50%,并且TATA框上游区域在两个方向上均作为启动子发挥作用。VH6启动子的转录活性实际上不依赖增强子:当将免疫球蛋白或SV40增强子添加到启动子构建体中时,仅观察到轻微增加。对转录因子与不完美八聚体周围区域结合的电泳迁移率变动分析表明,当使用B细胞或HeLa细胞的核提取物时,结合较弱。通过将不完美八聚体突变为完美八聚体,迁移的复合物数量增加。在VH6启动子与人类VH2基因家族成员的B细胞特异性启动子之间产生的嵌合体表明,缺乏组织特异性是由于VH6启动子中不存在非B细胞转录的抑制因子。这些结果表明,VH6启动子相对简单,只需要TATA元件和不完美八聚体,并且该启动子的转录缺乏B细胞特异性,也不依赖增强子元件。
