Fahrner J, Labruyere W T, Gaunitz C, Moorman A F, Gebhardt R, Lamers W H
Physiologisch-chemisches Institut, Universität Tübingen, Germany.
Eur J Biochem. 1993 May 1;213(3):1067-73. doi: 10.1111/j.1432-1033.1993.tb17854.x.
Hepatic glutamine synthetase (GS) shows a unique expression pattern limited to a few hepatocytes surrounding the terminal hepatic veins. Starting from the genomic clone of the rat GS gene, lambda GS1 [Van de Zande, L. P. G. W., Labruyère, W. T., Arnberg, A. C., Wilson, R. H., Van den Bogaert, A. J. W., Das, A. T., Frijters, C., Charles, R., Moorman, A. F. M. & Lamers, W. H. (1990) Gene (Amst.) 87, 225-232] additional genomic clones containing up to 9 kb of 5'flanking region were isolated in order to characterize cis-acting elements involved in the regulation of GS expression. Sequence analysis of the 5'flanking region up to -2520 bp revealed a putative AP2-binding site at -223 bp and a second GC box at -2343 bp in addition to the canonical TATA, CCAAT and GC boxes found proximal to the transcription-start site. A possible negative glucocorticoid-responsive element (GRE) and regions with very weak similarity to a GRE and to a known silencer element were noted at -506 bp, -406 bp and at -798 bp, respectively. Within the sequenced part of the 5'flanking region no known regulatory elements associated with liver-specific gene expression were found except for a putative HNF3-binding site at -896 bp. Functional analysis by transient transfection assays using constructs with the pSSCAT or the pXP1 vector revealed that the elements present within the first 153 bp and particularly the first 368 bp of upstream sequence constitute an active promoter the activity of which is decreased by additional sequences up to -2148 bp. The presence of dexamethasone led to a 2-4-fold increase in the promoter activity of all these constructs. Using the heterologous truncated thymidine-kinase-gene promoter of the plasmid pT81-luc a strong enhancer element was located between -2520 bp and -2148 bp. Its activity was not affected by dexamethasone but was negatively influenced by flanking sequences in both directions. This enhancer was also effective with the homologous GS promoter (-153 to +59 bp) and the heterologous full thymidine-kinase-gene promoter (pT109luc). No further enhancers were found up to -6200 bp. Using the same approach, a second enhancer was found between +259 bp and +950 bp within the first intron. Deoxyribonuclease-I hypersensitivity studies confirmed the presence of a hypersensitive site between +350 bp and +550 bp and suggested a second site between +850 bp and +1200 bp.(ABSTRACT TRUNCATED AT 400 WORDS)
肝谷氨酰胺合成酶(GS)呈现出一种独特的表达模式,仅限于终末肝静脉周围的少数肝细胞。从大鼠GS基因的基因组克隆λGS1[范德赞德,L.P.G.W.,拉布鲁耶尔,W.T.,阿恩伯格,A.C.,威尔逊,R.H.,范登博加尔特,A.J.W.,达斯,A.T.,弗里杰特斯,C.,查尔斯,R.,莫尔曼,A.F.M.和拉默斯,W.H.(1990年)《基因(阿姆斯特丹)》87卷,225 - 232页]开始,分离出了另外一些包含长达9 kb 5'侧翼区的基因组克隆,以鉴定参与GS表达调控的顺式作用元件。对至 - 2520 bp的5'侧翼区进行序列分析发现,除了在转录起始位点近端发现的典型TATA、CCAAT和GC盒外,在 - 223 bp处有一个假定的AP2结合位点,在 - 2343 bp处有第二个GC盒。在 - 506 bp、 - 406 bp和 - 798 bp处分别注意到一个可能的负性糖皮质激素反应元件(GRE)以及与GRE和已知沉默子元件相似度非常低的区域。在5'侧翼区的测序部分内,除了在 - 896 bp处有一个假定的肝细胞核因子3(HNF3)结合位点外,未发现与肝脏特异性基因表达相关的已知调控元件。使用带有pSSCAT或pXP1载体的构建体进行瞬时转染分析的功能研究表明,上游序列的前153 bp尤其是前368 bp内存在的元件构成一个活性启动子,其活性会因至 - 2148 bp的额外序列而降低。地塞米松的存在导致所有这些构建体的启动子活性增加2至4倍。使用质粒pT81 - luc的异源截短胸苷激酶基因启动子,在 - 2520 bp和 - 2148 bp之间定位到一个强增强子元件。其活性不受地塞米松影响,但在两个方向上均受到侧翼序列的负性影响。该增强子对同源GS启动子( - 153至 + 59 bp)和异源完整胸苷激酶基因启动子(pT109luc)也有效。直至 - 6200 bp未发现其他增强子。使用相同方法,在第一个内含子内的 + 259 bp和 + 950 bp之间发现了第二个增强子。脱氧核糖核酸酶I超敏性研究证实了在 + 350 bp和 + 550 bp之间存在一个超敏位点,并提示在 + 850 bp和 + 1200 bp之间存在第二个位点。(摘要截短于400字)
