定量分析诱导山羊体细胞重编程过程中端粒酶的表达变化

动物体细胞重编程为诱导多能干细胞(iPS)是目前干细胞生物学研究的热点。文中重点对山羊体细胞重编程过程中端粒酶(TERT)基因的相对表达量进行了检测,探讨了山羊重编程细胞的形成与端粒酶基因表达的关系。从关中奶山羊胎儿皮肤分离得到的胎儿成纤维细胞(GEF),其增殖能力较强,核型正常(60条XY),通过转录因子在体外诱导得到山羊重编程细胞。利用Real-timeRT-PCR方法首先对关中奶山羊胎儿各种组织的TERT表达进行了检测,结果表明睾丸组织中TERT的表达显著高于上皮组织(P0.01),在山羊胎儿的其他组织中TERT也有不同程度的表达。对原代重编程细胞和4株不完全重编程细胞株的TERT表达检测结果发现,碱性磷酸酶(AP)阳性的重编程细胞端粒酶表达量要显著高于AP阴性的重编程细胞(P0.01)。这一结果揭示,激活端粒酶活性并使其保持较高的表达水平对体细胞的重编程至关重要。     

Implication of the exon region in the regulation of the human telomerase reverse transcriptase gene promoter

The expression of the catalytic subunit (hTERT) represents the limiting factor for telomerase activity. In transfection studies, high level of activity of hTERT promoter is found, whereas low copy numbers of hTERT mRNA are detected in vivo. To explain this discrepancy, a series of vectors containing the hTERT promoter and gene were transiently transfected into HeLa cells. Four important regions were identified. First, the core promoter has bidirectional activity. Second, the distal upstream region (-1821 to -811bp) involved in the splicing of the first intron and could be a key of splicing specificity. Third, the intermediate promoter region (-800 to -300bp) could play an important role in silencing the reverse promoter activity. Fourth, the structural gene (up to +1077) strongly reduced hTERT promoter activity. These results provide the first evidence that the first two exons play a major role in the down-regulation of the hTERT promoter in telomerase-positive cells.     

人类癌组织中端粒酶活性与p16基因表达的相关性

端粒酶是一种由RNA和蛋白质组成的RNA酶,依其自身序列逆转录合成端粒序列并添加到染色体末端,以保证细胞分裂的稳定性。近年来的研究已证实端粒酶的激活是许多恶性肿瘤发生的先决条件。p16基因作为一种重要的抑癌基因,其编码产物P16蛋白可通过p16-cyclinD/CDK-pRB途径调控细胞周期。在多种肿瘤中均出现p16基因表达异常,其表达缺失与人类肿瘤的发生发展关系密切。就端粒酶活性与p16基因表达在人类癌组织中的相关性及其可能作用机制进行总结分析。     

中国人端粒酶催化亚基(hTERT)基因第六内含子VNTR多态性研究

端粒酶的激活在肿瘤发生、衰老以及细胞永生化过程中起重要作用,端粒酶催化亚基(hTERT)的表达是诱导端粒酶活性的限制性步骤,hTERT的表达受到复杂的调控。hTERT基因组全长40kh,包含16个外显子及15个内含子,其中,在第2和第6内含子中各存在2个可变数目串联重复(VNTR)多态性序列(VNTR2—1st、VNTR2—2nd以及VNTR6—1st和VNTR6—2nd),在第12内含子存在另一个单态性串联重复序列。通过对北京地区210例汉族健康人群hTERT基因第6内含子中36-bpVNTR6—1st的多态性进行调查研究．结果在调查人群中观察到18、20、21、22、23、26和35次重复共7种等位基因型以及14种基因型。基因型频率分布符合Hardy—Weinberg平衡。与韩国浦山地区调查人群类似,20、22及35次重复为最常见的等位基因型,这3种等位基因型频率占调查人群总数的94．76％。除了35次重复等位基因型频率与浦山地区人群存在差异外,其他基因型频率差异不显著。此外,除了在部分重复22次的等位基因型中VNTR5′端与浦山地区人群相同外,其他等位基因型中,北京地区汉族人VNTR6—1st5′端均存在53bD插入片段,显示出不同人种vNTR6—1st周边序列的差异性。北京地区汉族正常人群hTERT VNTR基因多态性资料为研究多态性与肿瘤或衰老的相关性提供了资料。     

Telomerase redefined: integrated regulation of hTR and hTERT for telomere maintenance and telomerase activity

Telomerase activity is dependent on the expression of 2 main core component genes, hTERT, which encodes the catalytic component and hTR (also called TERC), which encodes the RNA component. The correlation between telomerase activity and carcinogenesis has made this molecule of great interest in cancer research, however in order to fully understand the regulation of telomerase the mechanisms controlling both telomerase genes need to be studied. Some of these mechanisms of regulation have begun to emerge, however many more remain to be deciphered. For many years hTERT has been regarded as the limiting component of telomerase and much of the research in this field has focussed on its regulation, however it was clear from an early stage that hTR expression was also tightly regulated in normal cells and disease. More recently evidence from biochemistry, promoter studies and mouse models has been steadily increasing for a role for hTR as a limiting and essential component for telomerase activity and telomere maintenance. Perhaps the time has come to redefine our view of telomerase regulation. Knowledge of the mechanisms controlling both telomerase genes in normal systems and cancer may aid our understanding of the role of telomerase in carcinogenesis or highlight potential areas for therapeutic intervention. Here we review the essential requirement of hTR for telomere maintenance and telomerase activity in normal tissues and disease and focus on recent advances in our understanding of hTR regulation in relation to hTERT.     

Microarray gene expression analysis free of reverse transcription and dye labeling

A new microarray system has been developed for gene expression analysis using cationic gold nanoparticles with diameters of 250 nm as a target detection reagent. The approach utilizes nonlabeled target molecules hybridizing with complementary probes on the array, followed by incubation in a colloidal gold solution. The hybridization signal results from the precipitation of nanogold particles on the hybridized spots due to the electrostatic attraction of the cationic gold particles and the anionic phosphate groups in the target DNA backbone. In contrast to conventional fluorescent detection, this nanoparticle-based detection system eliminates the target labeling procedure. The visualization of hybridization signals can be accomplished with a flatbed scanner instead of a confocal laser scanner, which greatly simplifies the process and reduces the cost. The sensitivity is estimated to be less than 2 pg of DNA molecules captured on the array surface. The signal from hybridized spots quantitatively represents the amount of captured target DNA and therefore permits quantitative gene expression analysis. Cross-array reproducibility is adequate for detecting twofold or less signal changes across two microarray experiments.     

Decorin gene expression and its regulation in human keratinocytes

In various cell types, including cancer cells, decorin is involved in regulation of cell attachment, migration and proliferation. In skin, decorin is seen in dermis, but not in keratinocytes. We show that decorin gene (DCN) is expressed in the cultured keratinocytes, and the protein is found in the cytoplasm of differentiating keratinocytes and in suprabasal layers of human epidermis. RT-PCR experiments showed that DCN expression is regulated by pro-inflammatory and proliferative cytokines. Our data suggest that decorin should play a significant role in keratinocyte terminal differentiation, cutaneous homeostasis and dermatological diseases.     

A physiological role for DNA supercoiling in the anaerobic regulation of colicin gene expression

Summary The mechanism of anaerobic regulation of synthesis of colicins E1, E2, E3, K and D was studied. It was found that anaerobiosis significantly increases expression of the genes for colicins E1, E2, E3, K, and D. Experiments with novobiocin (a DNA gyrase inhibitor) showed that colicin synthesis in minicells and derepressed colicin synthesis in cells are dramatically reduced by relaxation of DNA supercoiling. A good correlation was observed between the levels of colicin synthesis and plasmid DNA supercoiling and the degree of aeration of the cultures. Thus, the regulation of colicin gene expression in response to a change in aeration appears to be mediated by environmentally induced variations in DNA supercoiling.