hTERT基因片段的克隆,表达和抗hTERTy抗体用于端粒酶及hTER …

Telomerase is an important biomarker in cancer cells. It is active in germline cells, most of cancer tissues and cell lines, but not in most somatic tissues. Telomerase is composed of two components, and while hTER is present in normal and tumor cells, expression of hTERT appears to be highly regulated and correlates with telomerase activity. In order to detect the telomerase enzyme and hTERT protein, anti-hTERT polyclonal antibodies were produced in this study. A segment of hTERT cDNA was amplified by RT-PCR and cloned into the multi-cloning site of the GST gene fusion vector pGEX-5X-3. After the recombinant plasmid was expressed in E. coli BL21, the fusion protein was purified for immunization. Extracts from several cultured cells were analyzed by Western blot, and the results indicated that telomerase enzyme and hTERT protein could be specifically detected by this anti-hTERT antibod'. Thus, a simple and effective method was primarily established for the immunodetection of telomerase enzyme and hTERT protein.     

hTERT基因片段的克隆、表达和抗hTERT抗体用于端粒酶及hTERT检测的研究

端粒酶是一种重要的肿瘤生物学标志,其活性在生殖细胞、绝大多数肿瘤细胞和体外培养的永生细胞可以测知,但在大多数体细胞中不易测出。人端粒酶由两部分组成,包括hTERC和hTERT,hTERC在正常细胞和肿瘤细胞中均有表达,而hTERT的表达似乎受到严格的调控且和端粒酶活性一致。为了检测肿瘤细胞中端粒酶及hTERT的表达,我们制备了抗hTERT蛋白的特异性多克隆抗体。首先用RT-PCR方法克隆了hTERTcDNA的一个片段,将其连接到GST融合表达载体pGEX-5X-3后在大肠杆菌中融合表达。将纯化的融合蛋白抗原免疫动物,制备抗hTERT蛋白的多克隆抗体。不同的细胞抽提物用该抗体进行了Westernblot分析,结果表明该抗体可特异识别端粒酶阳性细胞株中的hTERT及端粒酶,为端粒酶及hTERT的检测初步提供了一个简单有效的检测手段。     

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.     

A rapid biosensor chip assay for measuring of telomerase activity using surface plasmon resonance

Considerable interest has been focused on telomerase because of its potential use in assays for cancer diagnosis, and for anti-telomerase drugs as a strategy for cancer chemotherapy. A number of assays based on the polymerase chain reaction (PCR) have been developed for evaluation of telomerase activity. To overcome the disadvantages of the conventional telomerase assay [telomeric repeat amplification protocol (TRAP)] related to PCR artifacts and troublesome post-PCR procedures, we have developed a telomeric repeat elongation (TRE) assay which directly measures telomerase activity as the telomeric elongation rate by biosensor technology using surface plasmon resonance (SPR). 5′-Biotinylated oligomers containing telomeric repeats were immobilized on streptavidin-pretreated dextran sensor surfaces in situ using the BIACORE apparatus. Subsequently, the oligomers associated with the telomerase extracts were elongated in the BIACORE apparatus. The rate of TRE was calculated by measuring the SPR signals. We examined elongation rates by the TRE assay in 18 cancer and three normal human fibroblast cell lines, and 12 human primary carcinomas and matching normal tissues. The elongation rates increased in a concentration- and time-dependent manner. Those of cancer cells were two to 10 times higher than fibroblast cell lines and normal tissues. Telomerase activities and its inhibitory effects of anti-telomerase agents as measured by both the TRE and TRAP assays showed a good correlation. Our assay allows precise quantitative comparison of a wide range of human cells from somatic cells to carcinoma cells. TRE assay is suitable for practical use in the assessment of telomerase activity in preclinical and clinical trials of telomerase-based therapies, because of its reproducibility, rapidity and simplicity.     

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     

Human-human hybridomas secreting antibodies specific to human lung carcinoma

Summary Human Namalwa cells were screened in serum-free medium and in 6-thioguanine, then fused with human lymphocytes from lymph nodes of lung adenocarcinoma cancer patients. Extensive testing using 14 lung cancer cell lines, 11 other cancer cell lines and 4 normal fibroblast lines identified monoclonal antibodies produced by 4 hybridoma clones that reacted specifically with lung adenocarcinoma cells. These monoclonal antibodies also reacted with lung adenocarcinoma tissues and not normal tissues or erythrocytes of any blood type. These hybridoma clones grew and stably secreted the antibodies in serum-free medium as well as in serum-containing medium. Editor's Statement Identification of monoclonal antibodies that recognize human lung adenocarcinoma cells with reasonable specificity represents a potentially important development that may prove useful in diagnosis and therapy of neoplastic disease. The selection procedures and methods for propagation of the human-human hybridomas described in this paper also represent some novel approaches that may be of general application. David W. Barnes     

Monoclonal antibodies: methods and clinical laboratory applications

Kohler and Milstein have shown that individual clones of normal antibody-secreting lymphocytes could be immortalized by fusion with myeloma cells. These investigators initiated a new era of technology with the successful in vitro production of monoclonal antibodies via somatic cell hybridization. With the use of monoclonal antibodies, many major problems arising from the limited specificity and reproducibility of conventional antisera can be solved. Some of the commonly employed methods for the production of monoclonal antibody are: (1) fusion of sensitized lymphocytes and myelomas from different sources to produce continuous antibody-producing cell lines; (2) in vitro viral transformation of sensitized lymphocytes to form continuous antibody-producing cells; (3) hybrid fusion of sensitized lymphocytes and continuous B lymphocyte cell lines. During the past few years, monoclonal antibody methodology has been used in almost every area of biological research. Monoclonal antibodies have been used as structural probes for proteins and hormones, and as highly specific agents for histocompatibility testing, tumor localization, immunotherapy, purification of molecules, identification of new surface antigens on lymphocytes and tumor cells, and detection of drug levels and microbial and parasitic diseases. In addition, several investigators have developed alternative methods for the production of human as well as mouse and rat monoclonal antibodies. The new technology of in vitro production of animal and human monoclonal antibodies will have many future applications in diagnosis and therapy in laboratory and clinical medicine.     

Telomerase activity is sufficient to allow transformed cells to escape from crisis

The introduction of simian virus 40 large T antigen (SVLT) into human primary cells enables them to proliferate beyond their normal replicative life span. In most cases, this temporary escape from senescence eventually ends in a second proliferative block known as "crisis," during which the cells cease growing or die. Rare immortalization events in which cells escape crisis are frequently correlated with the presence of telomerase activity. We tested the hypothesis that telomerase activation is the critical step in the immortalization process by studying the effects of telomerase activity in two mortal SVLT-Rasval12-transformed human pancreatic cell lines, TRM-6 and betalox5. The telomerase catalytic subunit, hTRT, was introduced into late-passage cells via retroviral gene transfer. Telomerase activity was successfully induced in infected cells, as demonstrated by a telomerase repeat amplification protocol assay. In each of nine independent infections, telomerase-positive cells formed rapidly dividing cell lines while control cells entered crisis. Telomere lengths initially increased, but telomeres were then maintained at their new lengths for at least 20 population doublings. These results demonstrate that telomerase activity is sufficient to enable transformed cells to escape crisis and that telomere elongation in these cells occurs in a tightly regulated manner.     

Experimental elongation of telomeres extends the lifespan of immortal x normal cell hybrids.

Hybrids between immortal cells that express telomerase and normal cells that lack telomerase have a limited lifespan. We demonstrate that telomerase is repressed in such hybrids. Treatment of immortal human cell lines with certain oligonucleotides resulted in telomere elongation. We took advantage of this observation to test the hypothesis that elongation of telomeres would extend the lifespan of cells in culture. An immortal human cell line was treated with an oligonucleotide to lengthen its telomeres and then was fused with mortal cells. The lifespan of these hybrid cells was longer than that of the hybrids in which telomeres had not been elongated. These observations provide the first direct evidence supporting the hypothesis that telomere length determines proliferative capacity of human cells.     

Patient-specific stem cell lines derived from human parthenogenetic blastocysts

Parthenogenetic activation of human oocytes may be one way to produce histocompatible cells for cell-based therapy. We report the successful derivation of six pluripotent human embryonic stem cell (hESC) lines from blastocysts of parthenogenetic origin. The parthenogenetic human embryonic stem cells (phESC) demonstrate typical hESC morphology, express appropriate markers, and possess high levels of alkaline phosphatase and telomerase activity. The phESC lines have a normal 46, XX karyotype, except one cell line, and have been cultured from between 21 to 35 passages. The phESC lines form embryoid bodies in suspension culture and teratomas after injection to immunodeficient animals and give differentiated derivatives of all three embryonic germ layers. DNA profiling of all six phESC lines demonstrates that they are MHC matched with the oocyte donors. The study of imprinted genes demonstrated further evidence of the parthenogenetic origin of the phESC lines. Our research has resulted in a protocol for the production of human parthenogenetic embryos and the derivation of stem cell lines from them, which minimizes the presence of animal-derived components, making the derived phESC lines more suitable for potential clinical use.     

Flow cytometric analysis of fluorescein-conjugated estradiol (E-BSA-FITC) binding in breast cancer suspensions

With greater utilization of histochemical methods for detecting estrogen binding (ER) in tumor cells, there is an increasing need to quantitate objectively these fluorescently stained cells. This study utilizes flow cytometry (FCM) to examine the binding specificity and kinetics of 17 beta-estradiol-6-CMO-BSA-FITC(E-BSA-FITC) in two human mammary carcinoma cell lines, MCF-7 and 47-DN. Cells are rendered permeable to this ligand by freeze-thawing, a process analogous to the routine staining of frozen tumor sections with E-BSA-FITC for the clinical detection of ER. FCM quantification of E-BSA-FITC binding intensity demonstrates a saturable dose-response that is specifically reduced in the presence of diethylstilbestrol (DES) in doses known to saturate Type I ER. Scatchard analysis suggests that E-BSA-FITC binding occurs with receptors of varying affinities (Kd). Lineweaver-Burk plots show that the DES inhibition is competitive for a high-affinity receptor binding to E-BSA-FITC with a Kd of approximately 50 nM. This report also compares both FCM and biochemical methods of quantitating ER under two conditions of tumor cell growth potentially encountered in clinical specimens: quiescent versus actively proliferating cells, and cells pretreated with the antiestrogen tamoxifen. By FCM analysis, the cells with greater proliferating activity contain tenfold more specifically bound E-BSA-FITC, and tamoxifen pretreatment reduces this specific binding by 50%. These FCM measurements correlate well with biochemical results and suggest that this new methodology may supplement the detection of E-BSA-FITC binding by fluorescence microscopy.     

多形胶质母细胞瘤细胞系端粒酶活性的测定

端粒缩短见于星形细胞瘤发展过程中,但其长度在胶质母细胞瘤／细胞系相对稳定,提示胶质瘤细胞内存在端粒修复机制的可能性．为证实此点,利用端粒重复片段扩增技术（ＴＲＡＰ）,对８株人／大鼠多形胶质母细胞系的蛋白提取液中端粒酶活性加以测定．结果显示：８例胶质瘤样本的反应液均可见端粒ＰＣＲ扩增片段;用无ＤＮａｓｅ的ＲＮａｓｅ事先处理蛋白提取液,可明显降低或消除ＰＣＲ产物的出现,说明ＴＲＡＰ反应中的ＰＣＲ扩增是在端粒酶的介导下进行而非ＤＮＡ污染或其它端粒修复因子所致．从而不但建立起检测人癌细胞内端粒酶活性的可靠方法,也为针对端粒酶的胶质母细胞瘤生物／药物治疗提供了实验依据．     

Human progenitor cells isolated from the developing cortex undergo decreased neurogenesis and eventual senescence following expansion in vitro

Isolation of a true self-renewing stem cell from the human brain would be of great interest as a reliable source of neural tissue. Here, we report that human fetal cortical cells grown in epidermal growth factor expressed low levels of telomerase and telomeres in these cultures shortened over time leading to growth arrest after 30 weeks. Following leukemia inhibitory factor (LIF) supplementation, growth rates and telomerase expression increased. This was best demonstrated following cell cycle synchronization and staining for telomerase using immunocytochemistry. This increase in activity resulted in the maintenance of telomeres at approximately 7 kb for more than 60 weeks in vitro. However, all cultures displayed a lack of oligodendrotye production, decreases in neurogenesis over time and underwent replicative senescence associated with increased expression of p21 before 70 weeks in vitro. Thus, under our culture conditions, these cells are not stable, multipotent, telomerase expressing self-renewing stem cells. They may be more accurately described as human neural progenitor cells (hNPC) with limited lifespan and bi-potent potential (neurons/astrocytes). Interestingly, hNPC follow a course of proliferation, neuronal production and growth arrest similar to that seen during expansion and development of the human cortex, thus providing a possible model neural system. Furthermore, due to their high expansion potential and lack of tumorogenicity, these cells remain a unique and safe source of tissue for clinical transplantation.     

Quantitative fluorescence cytometric analysis of Bcl-2 levels in tumor cells exhibiting a wide range of inherent Bcl-2 protein expression: correlation with Western blot analysis

BACKGROUND: A protocol to measure a wide range of Bcl-2 protein expression using quantitative fluorescence cytometry (QFCM) in different cell types was developed for use with flow cytometry. Bcl-2 measurements obtained by flow cytometry were correlated with Western blot Bcl-2 measurements to confirm specificity of the Bcl-2-FITC staining. This protocol was applied to measure absolute levels of Bcl-2 protein in different tumor cell lines including Bcl-2-transfected breast carcinoma cell lines and in peripheral blood lymphocytes (PBL). METHODS: HL-60, K562, DOHH2, Jurkat, MDA435/LCC6, MCF7 cell lines, and PBL derived from normal donors were fixed, permeabilized, stained with anti-Bcl-2-FITC antibody and evaluated by QFCM. In parallel, the same cells were evaluated for Bcl-2 protein expression by Western blot analysis. Mitochondrial localization of anti-Bcl-2-FITC antibody inside cells was confirmed using fluorescence imaging microscopy. RESULTS: Bcl-2 expression in different cell types could be accurately quantified based on antibody-binding capacity (ABC) ranging from 12.6 x 10(3) antibody-binding sites in HL-60 cells to 1.64 x 10(6) antibody-binding sites in a Bcl-2-transfected MDA435/LCC6 clone. The data from flow cytometry analysis correlated well with Western analysis (R(2) = 0.78). Bcl-2-FITC staining colocalized with dyes specific for mitochondria. CONCLUSIONS: The Bcl-2 staining protocol described here was shown to be specific, sensitive, and it was able to provide higher resolution as well as more reproducible quantitation of Bcl-2 protein content in cells when compared with Western blot methods. Quantitation of Bcl-2 content in cells by QFCM may be useful for monitoring Bcl-2 expression in cells undergoing various treatments in vitro and in vivo.