Identification of Sp1-elements in the promoter region of human homeobox gene <Emphasis Type="Italic">NKX3.1</Emphasis>

NKX3.1 is a prostate-specific homeobox gene related strongly to prostate development and prostate cancer. However, little is known about the mechanism for regulation of NKX3.1 in prostate cancer. With RT-PCR and western blot, we found that NKX3.1 expression was enhanced by over-expression of Sp1 at both the mRNA and protein levels in prostate cancer LNCaP cells. To identify the Sp1-elements in the promoter region of NKX3.1, a 521 bp-promoter of human NKX3.1 gene containing three possible Sp1-elements was cloned into the upstream of the luciferase reporter gene in pGL₃-basic plasmid. With deletion mutation analysis, plasmid construction, EMSA and oligonucleotide decoy technique, two Sp1-elements which located between +29 to +43 and −60 to −46 of NKX3.1 gene were identified and proven to be functional elements. It will be important to further study on the functions and the regulatory mechanisms of Sp1 element in NKX3.1 gene expression.     

p53过表达抑制同源盒基因NKX3.1启动子活性

NKX3.1是前列腺特异表达的同源盒基因,在前列腺癌的发生发展中起重要作用,而在前列腺癌进展中常会发生p53的基因突变.为研究两者之间的关系,构建NKX-3.1启动子(1 040bp)-荧光素酶报告基因重组质粒（pGL3-1040）及其缺失突变体,瞬时转染前列腺癌细胞LNCaP.通过荧光素酶表达活性分析,检测p53过表达对NKX3.1启动子活性的影响.结果表明：p53在LNCaP细胞中过表达可明显抑制NKX3.1启动子活性;RT-PCR及Western印迹检测p53过表达对NKX3.1表达的影响.结果表明,p53过表达可以明显抑制同源盒基因NKX3.1的表达.通过TRANSFAC软件分析,在NKX3.1基因上游-526至-507区存在一个p53反应元件的5′核心序列.缺失pGL3-1040中的p53反应元件核心序列并不能消除p53对NKX3.1启动子的抑制作用,表明p53不是通过p53反应元件直接抑制NKX3.1启动子活性.进一步通过5′缺失突变分析,发现NKX3.1启动子-140～+8 bp区仍受p53负调控.此148 bp区域中含有一个Sp1和一个CREB元件,瞬时共转染Sp1表达载体或CREB表达载体的结果表明,p53并不是通过与Sp1或CREB相互作用对NKX3.1启动子发挥抑制作用的.上述结果表明,p53过表达可以抑制同源盒基因NKX3.1启动子活性,下调NKX3.1基因的转录,其调控机制有待进一步研究.     

Up-regulation of NKX3.1 expression and inhibition of LNCaP cell proliferation induced by an inhibitory element decoy

NKX3.1 is an androgen-regulated prostate-specific homeobox gene that is thought to play an important role in prostate development and cancerogenesis. NKX3.1 acts as a tumor suppressor gene specifically in the prostate. Up-regulation of NKX3.1 gene offers a promising gene therapy for prostate cancer. The decoy strategy has been developed and is considered a useful tool for regulating gene expression and gene therapy. In our previous studies, we identified a 20 bp inhibitory element upstream of the NKX3.1 promoter.In this study, we focused on using the 20 bp inhibitory element decoy to block negative regulation of the NKX3.1 gene and to up-regulate NKX3.1 expression using synthetic double-stranded oligodeoxynucleotides of the 20 bp inhibitory element. We found in an electrophoretic mobility shift assay experiment that the 20 bp inhibitory decoy presented competitive binding to a specific binding protein of the 20 bp inhibitory element in prostate cancer cell line LNCaP. In luciferase reporter gene assays, we found that the 20 bp inhibitory decoy could enhance NKX3.1 promoter activity, and RT-PCR and Western blot analysis revealed that NKX3.1 expression was up-regulated effectively by the transfection with the 20 bp inhibitory decoy. Furthermore,cell proliferation was inhibited by up-regulated NKX3.1 expression induced by the 20 bp inhibitory decoy.     

Positive and negative regulation of squalene synthase (ERG9), an ergosterol biosynthetic gene, in Saccharomyces cerevisiae

To identify regulatory cis-elements in the proximal promoter of the yeast ERG9 squalene synthase gene, promoter deletion analysis was performed. This approach identified two regulatory elements, one an upstream repressing cis-element (URS), and the other an upstream activating cis-element (UAS). Electromobility shift assays (EMSAs) demonstrated that distinct proteins bind each element. Genetic screens were performed to identify yeast mutants that altered expression of ERG9 promoter-reporter gene fusions. Three non-ergosterol biosynthetic pathway genes were identified. A mutation in TPO1(YLL028W) led to a 5.5-fold increase in ERG9 expression while mutations in YER064C and SLK19 (YOR195W) led to a 3.1- and 5.6-fold decrease, respectively. Deletion analysis of these genes demonstrated that TPO1 and SLK19 specifically regulated ERG9 expression when tested with several different promoter-reporter gene fusions. Additionally, EMSAs demonstrated that extracts derived from the TPO1 deletion strain was unable to shift the repressing cis-element while protein extracts from the SLK19 deletion strain had a reduced shift of the activating cis-element. Furthermore, these two mutants showed quantitative differences in sterols and antifungal drug susceptibilities consistent with their role in regulating ERG9 expression.     

单纯性先天性心脏病中TBX5基因表达异常的机制

为探讨人类单纯性先天性心脏病患者中TBX5基因表达下调的可能原因, 应用变性高效液相色谱(DHPLC)方法检测100例单纯性先天性心脏病患者中TBX5基因上游1 200 bp调控区的突变情况; 应用甲基化敏感性限制性内切酶(MS-RE)法检测50例单纯性先天性心脏病患者和5例非先天性心脏病患者心肌组织TBX5基因启动子区两个CpG岛(转录起始点上游-49~-188 bp和-247~-464 bp处)的甲基化情况; 应用P-match软件预测小鼠Tbx5基因上游转录因子Nkx2-5的结合位点, 构建Nkx2-5表达载体转染小鼠H9C2(2-1)心肌细胞, RT-PCR及Western blotting检测Tbx5基因表达, 凝胶阻滞实验(EMSA)验证Nkx2-5和Tbx5基因的作用。结果在100例单纯性先天性心脏病患者中, 未检测到TBX5基因上游1 200 bp调控区突变; 非先天性心脏病患者和单纯性先天性心脏病患者在两个CpG岛存在相同的甲基化; 小鼠Tbx5基因转录起始点上游-312~-315 bp可能存在Nkx2-5的结合位点, 转染Nkx2-5表达载体后Tbx5基因在mRNA及蛋白质水平均有表达增高趋势, Nkx2-5在体外可以与Tbx5基因上游-312~-315 bp序列相结合。以上结果提示TBX5基因调控区突变和两个CpG岛的甲基化不是单纯性先天性心脏病患者心肌组织中TBX5基因表达下调的原因, TBX5基因表达下调可能由于NKX2-5的表达异常引起。     

NKX3.1 potentiates TNF-α/CHX-induced apoptosis of prostate cancer cells through increasing caspase-3 expression and its activity

NKX3.1, a prostate-specific homeobox gene, plays an important role in prostate cancer and usually functions as tumor suppressor gene. Previously we have demonstrated that forced expression of NKX3.1 reduced cell growth and invasion in prostate cancer cell line PC-3. Presently, we investigated the effect of NKX3.1 on the sensitivity of the prostate cancer cells to apoptosis inducer tumor necrosis factor-α (TNF-α) and cycloheximide (CHX). PC-3 cells were transfected with NKX3.1 expression plasmid (pcDNA3.1-NKX3.1) and LNCaP cells were transfected with siRNA expression plasmid (pRNAT-RNAi1) targeting NKX3.1. The cell morphology and apoptotic rate were analyzed by Hoechst 33342 staining and Flow Cytometry in absence or presence of TNF-α and CHX. The activity of caspase-3 was determined using DEVD-pNA as substrate. Simultaneously, the effect of NKX3.1 on caspase-3 expression was detected using RT-PCR and Western blot. The results showed that ectopic expression of NKX3.1 promoted TNF-α/CHX-induced apoptosis in PC-3 cells, whereas knockdown of NKX3.1 protected LNCaP cells from apoptosis induced by TNF-α/CHX. The pro-apoptosis activity of NKX3.1 might partially contribute to its elevation of caspase-3 expression and activity. Manipulating NKX3.1 expression should be a promising therapeutic strategy for treating both androgen-dependent and androgen-independent prostate cancer.     

Gene expression profiles in the PC-3 human prostate cancer cells induced by NKX3.1

NKX3.1, a prostate-specific gene, plays an important role in prostate development and carcinogenesis. However, its precise function has not been established. In present study, we transfected the NKX3.1 eukaryotic expression plasmid (pcDNA3.1-NKX3.1) into human prostate cancer cells PC-3, which lack of NKX3.1 expression, and established stable transfectants. Then, we investigated the influence of NKX3.1 on the cell growth, cell migration and colony formation efficiency. The results showed that restoration of NKX3.1 expression inhibited proliferation and invasion activities of PC-3 cells. Further, a cDNA microarray containing 22,000 human genes was used to identify the gene expression differences. The results showed that there were 1,953 genes showing more than a two-fold difference in expression. Subsequent ontological analysis revealed that a large proportion of the classified genes were related to cell growth, cell signal and cell invasion. Finally, the expression of Caspase-3, Bcl-2, P27, Cdk6 and AMACR, randomly selected genes from microarray data, was validated by RT-PCR and western blot. Collectively, our results first analyzed the gene expression profile in PC-3 cells induced by NKX3.1 and indicated that NKX3.1 might exert its function by regulating the expression of relative genes.     

NF-κB对PPARδ基因的转录调控

过氧化物酶体增殖因子活化受体δ基因(PPARδ)与结直肠癌相关,但其转录调控机制尚不清楚.本研究构建了PPARδ基因的启动子荧光素酶报告基因载体,用删除法定位了启动子活性区域,并通过核酸重叠法和电泳迁移率变更实验,将该区域缩小到30 bp,预测该区域可能起作用的转录因子结合位点;通过启动子定点突变分析和核酸诱骗实验,发现真正起作用的是-156～-127区域内NF-κB的结合位点.电泳迁移率变更法和超迁移分析实验,证实NF-κB能够与该区域结合,并且在抑制NF-κB的DNA结合活性后,PPARδ mRNA的表达明显降低.这些实验表明,在Lovo细胞中,转录因子NF-κB参与了PPARδ的表达调控.     

人同源盒基因NKX3.1对前列腺癌细胞的诱导凋亡作用

构建人同源盒基因NKX3.1 cDNA真核表达载体,研究其在前列腺癌细胞PC-3、LNCaP 中的表达及对细胞的促凋亡作用.以人前列腺癌细胞LNCaP细胞中的总RNA为模板,RT-PCR扩增NKX3.1基因全长编码片段,将NKX3.1 cDNA重组到真核表达载体pcDNA3.1（+）中; 将pcDNA3.1-NKX3.1表达载体瞬时转染前列腺癌细胞PC-3和LNCaP 细胞,用RT-PCR和Western印迹检测NKX3.1 cDNA在转录水平和蛋白水平的表达;绘制细胞生长曲线,观察NKX3.1对前列腺癌细胞增殖的抑制作用;用DNA/ladder和流式细胞术检测NKX3.1对前列腺癌细胞凋亡的影响,进一步用RT PCR检测凋亡相关基因caspase3、caspase8、caspase9、Apaf1、survivin和Bcl2表达的变化.人同源盒基因NKX3.1 cDNA真核表达载体pcDNA3.1-NKX3.1经酶切及测序鉴定正确. pcDNA3.1-NKX3.1转染PC-3和LNCaP细胞后,经RT-PCR和Western印迹证明能有效表达NKX3.1.生长曲线显示,前列腺癌细胞转染NKX3.1 cDNA后细胞增殖受到抑制;前列腺癌细胞转染NKX3.1 cDNA 48 h后,DNA电泳呈现具有凋亡特征的DNA ladder;流式细胞术检测出现明显凋亡峰;RT-PCR检测凋亡相关基因.结果显示,caspase3、caspase8、caspase9基因表达明显增加,Bcl2基因表达明显减少.本研究成功构建了真核表达载体pcDNA3.1 NKX3.1, 转染PC3和LNCaP细胞后能有效表达,并对细胞具有诱导凋亡作用