荧光定量PCR 法检测肿瘤细胞端粒酶活性的变化

目的：利用荧光定量PCR法检测端粒酶抑制剂作用于人肝癌细胞SMMC-7721后端粒酶活性的变化,探讨其抑制端粒酶活性的可能机制,为端粒酶抑制剂的临床应用提供理论依据。方法：利用荧光染料SYBR—Green I建立一种新的端粒酶活性检测方法：FQ—TRAP法。利用FQ—TRAP法检测端粒酶抑制剂作用后肿瘤细胞端粒酶活性变化。结果：端粒酶抑制剂作用后,肝癌细胞端粒酶活性都有变化,其中以ASODN,EGCG,AZT抑制效果较明显。结论：端粒酶FQ—TRAP法是一种特异性、灵敏度、重复性都较好,可快速、简便及定量检测人端粒酶活性的方法,端粒酶抑制剂作用后癌细胞端粒酶活性的变化,为端粒酶抑制剂的临床应用提供理论依据。     

端粒酶RNA和端粒酶活性在人生殖道癌细胞株中的表达

本文采用反转录套式PCR(nested RT-PCR)和PCR端粒重复扩增(TRAP)方法分别检测了5种人生殖道癌细胞株端粒酶RNA(hTR)基因及端粒酶活性的表达。结果表明,宫颈癌HeLa和SiHa细胞株,绒毛膜癌JAR和BeWo细胞株及卵巢癌OCCI细胞株hTR及端粒酶活性均呈强阳性。但正常卵巢、宫颈和胎盘组织hTR和端粒酶呈阴性或弱阳性。提示反转录套式PCR和端粒重复扩增法可以简便而有效地检测端粒酶RNA及端粒酶活性。端粒酶的激活与肿瘤细胞增殖密切相关,并可能成为一项具有临床价值的肿瘤标志物。     

卵巢良性和恶性上皮性肿瘤中端粒酶蛋白表达及活性的研究

目的　研究卵巢良性和恶性上皮性肿瘤中端粒酶蛋白的表达水平及其活性 ,探讨其作为卵巢癌肿瘤标记物的可能性。方法　应用免疫组织化学方法检测了 30例卵巢癌和 10例卵巢腺瘤组织中端粒酶相关蛋白 1(TP1)和人端粒酶蛋白催化亚基 (hTRT)的表达水平 ,并采用TRAP -ELISA方法检测了 30例卵巢癌和 10例卵巢腺瘤组织中的端粒酶活性。结果　免疫组织化学结果显示 ,30例卵巢癌和 10例卵巢腺瘤组织中TP1和hTRT表达阳性率均为 10 0 %,其中卵巢癌的强阳性表达率高于卵巢囊腺瘤 (P <0 0 1) ,TP1和hTRT的表达强度无明显差别。TRAP ELISA方法检测发现 30例卵巢癌组织中 ,2 8例检测到端粒酶活性 ,阳性率为 93.3%;10例卵巢腺瘤中 ,仅 1例浆液性乳头状腺瘤检测到端粒酶活性 ,阳性率为 10 %(P <0 0 0 1)。结论　本研究的结果表明卵巢良性和恶性上皮性肿瘤中端粒酶蛋白TP1和hTRT的表达水平与端粒酶活性之间无明显相关性 ,端粒酶活性的检测与卵巢癌的发生发展密切相关 ,有望成为卵巢癌的一种肿瘤标记物。     

Reconstitution of Telomerase Activity Extends the Proliferative Life-span and Maintains the Neurogenetic Potential of Mesenchymal Stem Cells Derived from Human Fetal Muscle

目的 :通过重建端粒酶活性延长胎儿肌肉源间充质干细胞寿命 ,并对其成神经潜能进行研究 ,为组织工程神经修复提供种子细胞。方法 :将人端粒酶催化亚基 (hTERT)基因通过脂质体转染法导入胎儿肌肉源间充质干细胞 ,RT PCR检测hTERTmRNA的表达 ,TRAP PCR检测细胞端粒酶活性。用bFGF诱导已重建端粒酶活性的肌肉源间充质干细胞向神经细胞分化 ,免疫荧光及免疫印迹法检测分化情况。结果 :转染hTERT的胎儿肌肉源间充质干细胞能稳定表达端粒酶活性。转染后传 75代的细胞经bFGF诱导仍维持着自我更新及向神经细胞分化的潜能 ,且无恶性转化倾向。结论 :重建端粒酶活性可延长胎儿肌肉源间充质干细胞寿命并维持自我更新及成神经潜能 ,为建立组织工程标准细胞系提供了新的实验手段     

端粒植入胃癌7901细胞对细胞生长、端粒和端粒酶的影响

研究外源端粒片段植入胃癌7901细胞后对细胞生长、端粒长度和端粒酶活性的影响.采用lipofectTM2000介导的转染方式,将含有端粒片段质粒pSXneo-1.6-T2AG3转染胃癌细胞SGC7901,PCR在基因水平上鉴定外源性端粒片段的植入后,采用TRAP法检测转染细胞端粒酶活性变化,TRF法检测转染细胞端粒长度变化,MTT法检测细胞生长曲线,RT-PCR测定转染细胞hTERT表达变化.染色体核型分析细胞染色体变化.结果显示端粒片段成功导入SGC7901细胞后获得稳定的细胞株,端粒片段植入后细胞生长变慢,端粒长度延长不明显,端粒酶活性明显降低,hTERT mRNA表达水平下降,核型分析显示转染前后细胞染色体数目无明显变化.实验成功将携带了1600 bp端粒TTAGGG重复序列的真核表达载体pSX-T2AG3-neo稳定转染至人胃癌7901细胞中,端粒植入降低细胞端粒酶的活性和下调端粒酶活性亚单位hTERT的表达,但对端粒长度无明显影响.     

CpG ODNs对肿瘤细胞端粒酶活性及细胞周期和凋亡的影响

应用TRAP PCR ELISA法检测CpGODNs及E .coliDNA对肿瘤细胞端粒酶活性的影响变化 ,同时用流式细胞仪检测细胞周期的变化及凋亡的产生 ,从基因水平探讨其抗肿瘤机制。实验发现活性形式的CpGODNs可显著降低肿瘤细胞端粒酶活性 ,E .coliDNA的下调作用出现在 48h之后 ,二者均可使G0 /G1期细胞含量增加 ,但均未引起凋亡。结果表明 ,CpGODNs及E .coliDNA在基因水平可通过抑制端粒酶活性达到抗肿瘤目的 ,但不能诱导肿瘤细胞凋亡。     

siRNA降低肿瘤细胞端粒酶活性的研究

利用T7RNA聚合酶在体外转录合成针对端粒酶模板RNA(hTR)的两条互补单链RNA,经退火形成siRNA.采用TRAP法检测端粒酶活性,分析siRNA在肿瘤细胞裂解液的干扰作用.结果表明:T7RNA聚合酶可以高效地转录出短的单链RNA,制备的siRNA可明显地降低肿瘤端粒酶的活性,其降低肿瘤端粒酶活性的作用强于等量的反义链RNA.该法廉价、高效、简易,有可能为肿瘤的基因治疗提供一种新的探索途径.     

检测人结肠癌组织端粒酶活性的TRAP方法研究

对检测人结肠癌组织端粒酶活性的端粒酶重复序列扩增法(TRAP)进行了研究.当Mg^2＋浓度为1.8 mmol/L、退火温度为55℃时,能得到可靠的检测结果.影响检测结果可靠性的另两个因素是抽提物的反应用量和阳性片段的污染.     

银染端粒重复序列检测端粒酶活性方法的研究

为了建立一种便于检测端粒酶活性的方法,在Kim等开发的TRAP法的基础上作了一些改进。即把细胞提取液与TS引物混合,30度保温30min以延伸TS引物之后经过酚／氯仿抽提,乙醇沉淀,再做PCR扩增,PCR产物经12％非变性聚丙烯酰胺凝胶电泳,用银染法来显示电泳结果,结果表明该方法可以有效去除抑制Taq酶活性的因素,得到清晰的6bp阳性条带,具有特异性好,灵敏度高,易操作,无放射性危害等优点。     

化疗药物对人胃癌SGC-7901细胞系端粒酶活性影响

目的　研究常见化疗药物对人胃癌SGC 790 1细胞系端粒酶活性影响。方法　MTT (噻唑蓝 )法测定化疗药物顺铂、丝裂霉素、阿霉素、 5 氟尿嘧啶、氟铁龙 (脱氧氟尿苷 )对人胃癌SGC 790 1细胞系毒性作用的半数抑制(IC5 0 )浓度 ;用TRAP ELISA法测定 4 0×IC5 0浓度化疗药物作用于SGC 790 1细胞 4h、 2 8h端粒酶活性及IC5 0浓度IC5 0化疗药物作用于SGC 790 1细胞 2 4h、 72h、 12 0h细胞端粒酶活性。结果　高浓度 ,低浓度顺铂、丝裂霉素对SGC 790 1细胞端粒酶活性有完全抑制作用 ;而阿霉素、 5 氟尿嘧啶、氟铁龙对SGC 790 1细胞端粒酶活性有部分抑制作用。结论　阿霉素、 5 氟尿嘧啶、氟铁龙对SGC 790 1细胞端粒酶活性有轻度抑制作用 ;顺铂、丝裂霉素能完全抑制端粒酶活性 ,呈时间浓度效应     

A quantitative method to measure telomerase activity by bioluminescence connected with telomeric repeat amplification protocol.

Telomerase is expected to be a new biomarker for cancer diagnosis. The telomeric repeat amplification protocol (TRAP) is a sensitive method to detect telomerase activity. However, TRAP and its modified protocols are not always suitable for measuring telomerase activity of a large number of clinical samples to diagnosis cancer because these methods generally require a time-consuming detection step such as gel electrophoresis. To improve the procedure for mass diagnosis, we applied bioluminescence to replace the detection step. Telomerase activity is measured by evaluating the amount of inorganic pyrophosphate generated in PCR amplification of telomerase elongation product, with use of the sensitive enzymatic luminometric inorganic pyrophosphate detection assay (ELIDA). TRAP connected with ELIDA (TRAP-ELIDA) can quantitatively detect telomerase activity within linearity from 2 to 1000 cell equivalents. The ELIDA signals accorded with results of TRAP-SYBR green staining, and the results of ELIDA were significantly correlated to those of TRAP connected with an enzyme-linked immunosorbent assay (TRAP-ELISA) (r(2) = 0.992, P < 0.001). TRAP-ELIDA is a simple and sensitive method to quantify telomerase activity without time-consuming gel electrophoresis. Because TRAP-ELIDA measures telomerase activity with a luminometer, it could be applied to a large number of clinical samples at the same time.     

SYBR Green real-time telomeric repeat amplification protocol for the rapid quantification of telomerase activity

The sensitive telomeric repeat amplification protocol (TRAP) permits telomerase detection in mammalian cell and tissue extracts with very low telomerase activity levels. Unfortunately, conventional TRAP assays require complex post-amplification procedures, such as polyacrylamide gel electrophoresis and densitometry, to measure telomerase products. Therefore, a real-time quantitative TRAP assay (RQ-TRAP) was optimized in the present study and evaluated in comparison with a commercially available quantitative TRAP kit and by monitoring telomerase activity in human hepatocyte cultures, human hepatoma cell lines and telomerase reconstitution experiments. The novel real-time telomerase detection method has many advantages. Other than sample extraction and real-time cycling, no additional time-consuming steps have to be performed for telomerase quantification; reliable and linear telomerase quantification is possible down to single-cell dilutions without the interference of primer-dimer artifacts, and the costs are less. Moreover, the precision is similar to other amplification-based telomerase quantification assays and the results are comparable to data obtained with two commercially available assays. The closed-tube system reduces the risk of carryover contamination and supports high throughput. In conclusion, RQ-TRAP provides a new tool for the rapid and reliable quantification of telomerase activity.     

Telomerase Activity in the Various Regions of Mouse Brain: Non-Radioactive Telomerase Repeat Amplification Protocol (TRAP) Assay

Telomerase, a ribonucleoprotein, is responsible for maintaining the telomere length and therefore promoting genomic integrity, proliferation, and lifespan. In addition, telomerase protects the mitochondria from oxidative stress and confers resistance to apoptosis, suggesting its possible importance for the surviving of non-mitotic, highly active cells such as neurons. We previously demonstrated the ability of novel telomerase activators to increase telomerase activity and expression in the various mouse brain regions and to protect motor neurons cells from oxidative stress. These results strengthen the notion that telomerase is involved in the protection of neurons from various lesions. To underline the role of telomerase in the brain, we here compare the activity of telomerase in male and female mouse brain and its dependence on age. TRAP assay is a standard method for detecting telomerase activity in various tissues or cell lines. Here we demonstrate the analysis of telomerase activity in three regions of the mouse brain by non-denaturing protein extraction using CHAPS lysis buffer followed by modification of the standard TRAP assay.In this 2-step assay, endogenous telomerase elongates a specific telomerase substrate (TS primer) by adding TTAGGG 6 bp repeats (telomerase reaction). The telomerase reaction products are amplified by PCR reaction creating a DNA ladder of 6 bp increments. The analysis of the DNA ladder is made by 4.5% high resolution agarose gel electrophoresis followed by staining with highly sensitive nucleic acid stain.Compared to the traditional TRAP assay that utilize ³²P labeled radioactive dCTP''s for DNA detection and polyacrylamide gel electrophoresis for resolving the DNA ladder, this protocol offers a non-toxic time saving TRAP assay for evaluating telomerase activity in the mouse brain, demonstrating the ability to detect differences in telomerase activity in the various female and male mouse brain region.     

Nonradioactive detection of telomerase activity using the telomeric repeat amplification protocol

The telomeric repeat amplification protocol (TRAP) is a two-step process for analyzing telomerase activity in cell or tissue extracts. Recent modifications of this sensitive assay include elimination of radioactivity by using a fluorescently labeled primer instead of a radiolabeled primer. In addition, the TRAP assay has been modified for real-time, quantitative PCR analysis. Here, we describe cost-effective procedures for detection of telomerase activity using a fluorescent-based assay as well as by using real-time PCR. These modified TRAP assays can be accomplished within 4 h (from lysis of samples to analysis of telomerase products).     

水稻端粒酶活性定量分析研究

摘要：端粒酶活性直接与细胞的分生能力、生活力、生命力有着密不可分的关系, 因此对其活性测定有着重要意义。本文参照人类端粒酶体外检测的原理和方法,设计了特别的先导引物和反向引物,采用不同的退火温度将PCR循环分成两步进行,再结合DNA凝胶电泳成像定量分析系统,以模式植物水稻为研究对象,对端粒酶活性定量检测方法和反应条件进行了探索。结果显示,水稻端粒酶活性的最佳反应条件为：温度19℃,反应时间13分钟,总蛋白浓度0.28μg/μl,与人端粒酶最佳反应条件有明显差异,建立了一种有效测定植物端粒酶活性的定量检测方法。应用该方法对6个水稻品种的根、幼叶及幼穗三个不同组织器官的端粒酶活性进行了定量测定,结果显示幼穗最高,其次为幼叶,根最弱。说明植物端粒酶活性与细胞、组织的生活力有着密切关系。     

Analysis of telomerase activity and detection of its catalytic subunit,hTERT

The discovery of the enzyme telomerase and its subunits has led to major advances in understanding the mechanisms of cellular proliferation, immortalization, aging, and neoplastic transformation. The expression of telomerase in more than 85% of tumors provides an excellent tool for the diagnosis, prognosis, and treatment of cancer. However, the techniques employed in its detection appear to play a significant role in the interpretation of the results. The telomeric repeat amplification protocol (TRAP assay) has been the standard assay in the detection of telomerase activity and many variations of this technique have been reported. Recent advances in the development of the TRAP assay and the incorporation of techniques that provide a quantitative and qualitative estimate of telomerase activity are assessed in this review. In addition to histological and cytological examination of tissues, distribution patterns of the catalytic subunit of telomerase, hTERT, are frequently used in the prognosis of tumors. The methods involved in the detection of hTERT as a biomarker of cellular transformation are also analyzed.     

Microarray TRAP--a high-throughput assay to quantitate telomerase activity

Telomeric repeat amplification protocol (TRAP)--a sensitive, PCR-based assay to detect telomerase activity was quintessential to the evaluation of telomerase role in telomere maintenance, cell proliferation, tumour development, and cell immortalization. The assay, however, suffers from many limitations. The most significant are: lack of telomerase activity quantification, changes of the enzyme activity product size and/or ratio, and complex post-amplification procedures which limit the assay throughput. Here we report the development of the microarray TRAP (MTRAP) assay which combines advantages of microarray technology with a modified TRAP assay. The MTRAP was designed and optimized on rice cell suspension telomerase extract to enable telomerase specific, reliable, and linear quantification in high throughput mode, with sensitivity comparable to those of radioisotope-based TRAP assays. The MTRAP has a built-in system guaranteeing the amplification of telomerase activity products unchanged in length and/or ratio and built-in control for false negatives. Thus, our MTRAP assay provides new reliable tool for experiments requiring massive quantitation of telomerase activity.     

Noninvasive diagnostics of bladder cancer based on analysis of telomerase activity and expression hTERT and hTR coding its subunits

In order to develop noninvasive diagnostics of bladder cancer (BC), telomerase activity has been examined by means the TRAP method (telomerase repeat amplification protocol) in tumor tissue and urine pellet samples taken from patients with bladder cancer. The levels of relative expression of genes encoding telomerase catalytic subunit (hTERT) and its RNA subunit (hTR) were evaluated by RT-PCR. Telomerase activity and expression of genes encoding its subunits were detected in both tumor tissues and in the urine cell pellet from each BC patient. Results of our study demonstrate possibility of noninvasive BC diagnostics using combination of these methods with sensitivity of 96% and specificity of 100% in the case of telomerase detection and with sensitivity of 80% and specificity of 100% in the case of hTERT detection in urine pellet samples.