Extended‐release PEG–luciferin allows for long‐term imaging of firefly luciferase activity in vivo

Bioluminescence has gained favour in the last decade as an approach for observing tumours in vivo in a non‐destructive manner. This very sensitive technique is based on light emission by the reaction of luciferin with the enzyme luciferase, as measured by a photodetector. Ever since the development of recombinant tumour cell lines that have been engineered to produce luciferase, a vast number of experiments have been carried out examining tumour growth, tumour metastasis and the effect of therapeutic regimens in such cases. A primary stumbling block, however, is the relatively short circulatory half‐life of luciferin. In this paper, we propose the PEGylation of 6‐amino‐d ‐luciferin to extend its in vivo circulatory half‐life, thus making the possibility of long‐term observations in animals possible. The covalent attachment was through a carbamate linker that is known to hydrolyse in vivo, releasing the parent compound. Based on our studies, longer emission of the PEGylated luciferin was observed, as compared to free luciferin in mice bearing PC3 prostate tumours expressing luciferase. This result suggests that this reagent can be used in applications requiring extended monitoring of luciferase activation in vivo. Copyright © 2008 John Wiley & Sons, Ltd.     

重组丙酮酸磷酸双激酶与荧光素酶偶联催化ATP-AMP循环反应

丙酮酸磷酸双激酶（pyruvate phosphate dikinase, PPDK; EC 2.7.9.1）能够可逆催化磷酸烯醇式丙酮酸（phosphoenolpyruvate, PEP）、单磷酸腺苷（adenosine monophosphate, AMP）和焦磷酸盐（pyrophosphate, PPi）生成三磷酸腺苷（adenosine triphosphate, ATP）、无机磷酸盐（orthophosphate, Pi）和丙酮酸（pyruvate）.以热玫瑰小双孢菌基因组DNA为模板,PCR扩增得到了编码PPDK的基因,将此基因片段插入表达载体pET24a (+),在大肠杆菌中表达C端融合His-Tag的重组PPDK.与我们先前表达的N端融合His-Tag的PPDK相比,酶的活性提高了20倍,提示该酶的N端对活性十分重要.重组PPDK单体分子量为98 kD.经过镍亲和层析和超滤后,重组PPDK基本达到电泳纯.重组PPDK与荧光素酶偶联能够形成1个ATP-AMP循环反应,在该循环反应中,荧光素酶催化ATP生成的AMP和PPi能够被PPDK重新转化成ATP,产生一个持续稳定的信号.     

Firefly luciferase luminescence assays using scintillation counters for quantitation in transfected mammalian cells

The firefly enzyme luciferase catalyzes the luminescent reaction of luciferin with ATP and oxygen. The luciferase gene has recently been cloned and proposed as a reporter gene in procaryotic and eucaryotic cells. We present here a luciferase activity assay which relies on luminescence detection using a standard scintillation counter. This technique is simple, fast, inexpensive, and still very sensitive: as little as 0.02 pg (250,000 molecules) of enzyme is readily detected. The technique is optimized for the luciferase assay in mammalian cell lysates. Thus, the luciferase gene may become a very useful tool for gene regulation studies.     

Cellular senescence and longevity of osteophyte‐derived mesenchymal stem cells compared to patient‐matched bone marrow stromal cells

This study aimed to determine the cellular aging of osteophyte‐derived mesenchymal cells (oMSCs) in comparison to patient‐matched bone marrow stromal cells (bMSCs). Extensive expansion of the cell cultures was performed and early and late passage cells (passages 4 and 9, respectively) were used to study signs of cellular aging, telomere length, telomerase activity, and cell‐cycle‐related gene expression. Our results showed that cellular aging was more prominent in bMSCs than in oMSCs, and that oMSCs had longer telomere length in late passages compared with bMSCs, although there was no significant difference in telomere lengths in the early passages in either cell type. Telomerase activity was detectable only in early passage oMSCs and not in bMSCs. In osteophyte tissues telomerase‐positive cells were found to be located perivascularly and were Stro‐1 positive. Fifteen cell‐cycle regulator genes were investigated and only three genes (APC, CCND2, and BMP2) were differentially expressed between bMSC and oMSC. Our results indicate that oMSCs retain a level of telomerase activity in vitro, which may account for the relatively greater longevity of these cells, compared with bMSCs, by preventing replicative senescence. J. Cell. Biochem. 108: 839–850, 2009. © 2009 Wiley‐Liss, Inc.     

Adenovirus-mediated suicide SCLC gene therapy using the increased activity of the hTERT promoter by the MMRE and SV40 enhancer

Telomerase is a ribonucleoprotein complex of which the function is to add telomeric repeats to chromosomal ends. Telomerase consists of two essential components, the telomerase RNA template (hTR) and the catalytic subunit (hTERT). hTERT is expressed only in cells and tissues positive for telomerase activity, i.e., tumor or stem cells. The aim of this study was to use increased telomerase promoter activity in small-cell lung cancer (SCLC) gene therapy. The hTERT promoter and Myc-Max response elements (MMRE) in pGL3-Control vector containing SV40 enhancer resulted in strong expression of the luciferase gene only in telomerase positive and myc overexpressing SCLC cell line but not in normal human cell line. To investigate the possibility of the utilization of the MMRE, hTERT promoter, and SV40 enhancer in targeted SCLC gene therapy, adenovirus vector expressing HSV-TK controlled by the MMRE, hTERT promoter, and SV40 enhancer for the induction of telomerase positive and myc-overexpressing cancer specific cell death was constructed. SCLC cells infected with Ad-MMRE-hT-TK-enh were significantly suppressed and induced apoptosis more than those of Ad-hT-TK or Ad-hT-TK-enh infected cells. Telomerase and c-myc are activated in 60 approximately 80% of SCLC, so the increased activity of telomerase promoter can be used for targeted SCLC gene therapy. These results show that the MMRE, hTERT promoter, and SV40 enhancer can be used in SCLC targeted cancer gene therapy.     

Enumeration of bacterial cell numbers by amplified firefly bioluminescence without cultivation

We recently developed a novel bioluminescent enzymatic cycling assay for ATP and AMP with the concomitant use of firefly luciferase and pyruvate orthophosphate dikinase (PPDK), where AMP and pyrophosphate produced from ATP by firefly luciferase were converted back into ATP by PPDK. Background luminescence derived from contaminating ATP and AMP in the reagent was reduced using adenosine phosphate deaminase which degrades ATP, ADP, and AMP, resulting in constant and highly amplified bioluminescence with low background luminescence. To detect bacterial cells without cultivation, we applied the above bioluminescent enzymatic cycling reagent to rapid microbe detection system. ATP spots (0.31-5.0 amol/spot) at the level of a single bacterial cell were detected with 5 min signal integration, signifying that integrated luminescence was amplified 43 times in comparison to traditional ATP bioluminescence. Consequently, Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Lactobacillus brevis in beer were detected without cultivation. Significant correlation was observed between the number of signal spots obtained using this novel system and the colony-forming units observed with the conventional colony-counting method (R(2)=0.973).     

Decrease in claudin‐2 expression enhances cell migration in renal epithelial madin–darby canine kidney cells

Migration of renal epithelial cells increases after renal tubular damage, but its mechanism has not been clarified in detail. Hyperosmotic stress increased a cellular injury concomitant with a decrease in mRNA and protein expression of claudin‐2 in renal tubular epithelial Madin–Darby canine kidney cells. We hypothesized that claudin‐2 is involved in the regulation of cell migration. To knockdown claudin‐2 expression, we made the cells expressing doxycycline‐inducible claudin‐2 shRNA vector. Claudin‐2 knockdown affected neither the endogenous expression levels of claudin‐1, ‐3, ‐4, and ‐7 nor the Triton X‐100 solubility of these claudins. Transepithelial electrical resistance was increased by claudin‐2 knockdown without affecting permeability to FITC‐dextran (4,000 Da). BrdU incorporation assay and cell counting revealed that cell proliferation and viability are unaffected by claudin‐2 knockdown. In the wound‐healing assay, the recovery rate of wound area was increased by claudin‐2 knockdown. The mRNA expression and activity of matrix metalloproteinase‐9 (MMP‐9) were increased by claudin‐2 knockdown. A selective MMP‐9 inhibitor suppressed cell migration in the claudin‐2 knockdown cells. Hyperosmotic stress increased the expression and activity of MMP‐9, which were inhibited by claudin‐2 overexpression. These results suggest that the decrease in claudin‐2 expression enhances cell migration mediated by the increase in the expression and activity of MMP‐9. J. Cell. Physiol. 226: 1471–1478, 2011. © 2010 Wiley‐Liss, Inc.     

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。     

Molecular basis of artifacts in the detection of telomerase activity and a modified primer for a more robust 'TRAP' assay.

Human somatic cells have essentially no telomerase activity. Telomerase is linked to tumor genesis and is a valuable marker for malignant growth. Extreme paucity of the enzyme neccessitated development of a PCR-based assay, 'telomeric repeat amplification protocol' (TRAP). Unfortunately, this method is not without difficulties.Amplification products are not related to the size of the amplified telomerase products. Furthermore, false positive results can occur, and careful control of reaction conditions is crucial. We analyzed in detail the molecular basis of artifacts. Based on these data, reverse PCR primer was changed and both problems in the TRAP assay were eliminated.     

Activity of the Human Telomerase Catalytic Subunit (hTERT) Gene Promoter Could Be Increased by the SV40 Enhancer

Telomerase is a ribonucleoprotein complex of which the function is to add telomeric repeats to chromosomal ends. Telomerase consists of two essential components, the telomerase RNA template (hTR) and the catalytic subunit (hTERT). hTERT is expressed only in cells and tissues positive for telomerase activity, i.e., tumor and fetal cells. The aim of this study is to test the increased telomerase promoter activity for cancer gene therapy in adenovirus vector. We cloned the hTERT promoter in place of the SV40 promoter in the pGL3-contol vector to be increased by the SV40 enhancer sequences, resulting in strong expression of luc+ only in telomerase positive cancer cells. Then we transfected the constructed plasmid into a normal human cell line and several cancer cell lines. Through these experiments, we identified the selective and increased expression of the luciferase gene controlled by the hTERT promoter and the SV40 enhancer in the telomerase positive cancer cell lines. To investigate the possibility of utilizing the hTERT promoter and the SV40 enhancer in targeted cancer gene therapy, we constructed an adenovirus vector expressing HSV-TK controlled by the hTERT promoter and the SV40 enhancer for the induction of specific telomerase positive cancer cell death. NSCLC cells infected by Ad-hT-TK-enh were more significantly suppressed and induced apoptosis than those infected by Ad-hT-TK. Telomerase is activated in 80～90% of cancers, so adenovirus with increasing telomerase promoter activity might be used for targeted cancer gene therapy using suicide genes. These results show that the hTERT promoter and the SV40 enhancer might be used for targeted cancer gene therapy.     

The addition of a spin column step in the telomeric repeat application protocol removes telomerase inhibitors

Telomerase activity in cancer cells is commonly analyzed by a polymerase chain reaction (PCR)-based assay termed the telomeric repeat amplification protocol (TRAP). However, nonspecific inhibition of Taq polymerase during the PCR step is frequently observed in inhibitor analysis or drug screening. Thus, the removal of excess inhibitors prior to PCR is an essential step for the proper evaluation of telomerase inhibitory effects. Here, a size exclusion spin column was applied to remove small molecular weight inhibitors from the telomerase extension products. The spin column-added protocol, termed sTRAP, provides a more reliable estimation of the inhibitory effects of telomerase activity.     

Nano‐sized bacterial magnetic particles displaying pyruvate phosphate dikinase for pyrosequencing

There is a high demand for inexpensive and high‐throughput DNA sequencing technologies in molecular biology and applied biosciences. In this study, novel nano‐sized magnetic particles displaying enzymes for pyrosequencing, a rather novel bioluminometric DNA sequencing method based on the sequencing‐by‐synthesis principle by employing a cascade of several enzymatic reactions, was developed. A highly thermostable enzyme, pyruvate phosphate dikinase (PPDK) which converts PPi to ATP was successfully expressed onto bacterial magnetic particles (BacMPs) using a novel protein display system of Magnetospirillum magneticum AMB‐1. The enzymatic stability of BacMPs displaying PPDK (PPDK‐BacMPs) to pH and temperature was evaluated and its broad range of properties was shown. Subsequently, PPDK‐BacMPs were applied in pyrosequencing and a target oligonucleotide was successfully sequenced. The PPDK enzyme displayed on BacMPs was shown to be recyclable in each sequence reaction as they can be manipulated by magnetic force. It was concluded that nano‐sized PPDK‐BacMPs are useful for the scale down of pyrosequencing reaction volumes, thus, permitting high‐throughput. The recycling of enzymes was also shown to be promising and applicable for the development of an inexpensive DNA sequencing at a low running cost. Biotechnol. Bioeng. 2009;103: 130–137. © 2008 Wiley Periodicals, Inc.     

端粒酶shRNA 慢病毒载体的构建及转染人类胚胎干细胞

目的:构建端粒酶shRNA慢病毒载体及建立端粒酶稳定干扰的人类胚胎干细胞系。方法:将端粒酶基因特异性shRNA靶序列与慢病毒载体PLKO.1-puro连接、转化、挑取阳性克隆进行PCR及测序鉴定;利用包装细胞293T获得重组的慢病毒,感染人类胚胎干细胞,分为干扰组ShTert、载体组vector和野生型组wt;Realtime-PCR检测端粒酶mRNA的表达。结果:经PCR和DNA测序鉴定,成功构建端粒酶特异性shRNA慢病毒载体,并感染人类胚胎干细胞;经检测shTert组端粒酶mRNA表达较vector和wt组明显降低,vector组和wt组之间无明显差异。结论:通过成功构建的端粒酶特异性shRNA慢病毒载体对人类胚胎干细胞的转染实现了对其端粒酶mRNA的调控。     

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.     

Measurement of adenine nucleotides in plasma

The goal of this study was to identify the most important variables affecting bioluminescent ATP, ADP and AMP measurements in plasma and to develop an assay that takes these variables into account. Blood samples were drawn from conscious dogs. A ‘stop solution’ containing EDTA was prepared, which greatly retarded plasma ATP degradation by chelating Mg⁺² and Ca⁺² that are co‐factors for many ATPases. Stop solution and blood were mixed using a two‐syringe withdrawal system. Samples were centrifuged twice in order to remove red blood cells, and ATP was measured in the supernatant using the firefly luciferase assay. Sample pH was adjusted to the optimal range (7.75–7.95) and Mg²⁺ (necessary for the luciferase reaction) was added back to the sample within the luminometer 2 s prior to luciferase addition. Four assay tubes were prepared for each plasma sample, containing standard additions of 0–15 pmol added ATP, in order to quantify native plasma ATP content. In separate plasma/stop solution samples ADP + ATP was measured after converting ADP to ATP via the pyruvate kinase reaction, and AMP + ADP + ATP was measured after addition of both myokinase and pyruvate kinase. Addition of forskolin and isobutylmethylxanthine (IBMX) to the stop solution to inhibit platelets resulted in lower ATP concentrations. Measurement of ATP and haemoglobin from lysed erythrocytes revealed that haemolysis exerts a strong influence on plasma ATP concentration that must be taken into account. Copyright © 2003 John Wiley & Sons, Ltd.     

A modified procedure for replica plating of mammalian cells allowing selection of clones based on gene expression.

The polyester cloth replica-plating technique for selection of mammalian cell clones was modified by growing cells in colonies on a flexible polytetrafluoroethylene membrane and then transferring them completely to polyester cloth (27-microns mesh), from which a replica was made by allowing cells to transfer to a cloth of smaller pore size (17-microns mesh). Using this technique, two phenotype selection methods are demonstrated here: in situ hybridization for detection of a specific mRNA and a photographic film assay for detection of luciferase expression. Cells were transfected with pSV2AL-A delta 5' in which firefly luciferase cDNA is under the control of the simian virus 40 promoter. The luciferase assay was adapted for colonies on polyester cloth; cells were permeabilized with digitonin to allow access of ATP and luciferin to the cell without disruption of colonies. Clones selected for expression or nonexpression of luciferase by the photographic film assay were positive or negative for expression after isolation from the cloth replica and subsequent growth under conventional culture conditions. The replica-plating procedure described here should be generally applicable to most mammalian cell types. The ability to produce replicas of colonies, combined with in situ hybridization or assays that can be adapted to in situ detection, provides phenotype selection for clones based on gene expression independent of growth characteristics.     

Interferon‐γ suppresses Na+–H+ exchanger in cultured human endolymphatic sac epithelial cells

Adequate regulation of endolymphatic pH is essential for maintaining inner ear function. The Na⁺–H⁺ exchanger (NHE) is a major determinant of intracellular pH (pH_i), and facilitates Na⁺ and fluid absorption in various epithelia. We determined the functional and molecular expression of NHEs in cultured human endolymphatic sac (ES) epithelial cells and examined the effect of IFN‐γ on NHE function. Serial cultures of human ES epithelial cells were generated from tissue samples. The molecular expression of NHE1, ‐2, and ‐3 isoforms was determined by real‐time RT‐PCR. The functional activity of NHE isoforms was measured microfluorometrically using a pH‐sensitive fluorescent dye, 2′,7′‐bis(carbonylethyl)‐5(6)‐carboxyfluorescein (BCECF), and a NHE‐inhibitor, 3‐methylsulfonyl‐4‐piperidinobenzoyl guanidine methanesulfonate (HOE694). NHE1, ‐2, and ‐3 mRNAs were expressed in human ES epithelial cells. Functional activity of NHE1 and ‐2 was confirmed in the luminal membrane of ES epithelial cells by sequentially suppressing Na⁺‐dependent pH_i recovery from intracellular acidification using different concentrations of HOE694. Treatment with IFN‐γ (50 nM for 24 h) suppressed mRNA expression of NHE1 and ‐2. IFN‐γ also suppressed functional activity of both NHE1 and ‐2 in the luminal membrane of ES epithelial cells. This study shows that NHEs are expressed in cultured human ES epithelial cells and that treatment with IFN‐γ suppresses the expression and functional activity of NHE1 and ‐2. J. Cell. Biochem. 107: 965–972, 2009. © 2009 Wiley‐Liss, Inc.     

POT1–TPP1 enhances telomerase processivity by slowing primer dissociation and aiding translocation

Telomerase contributes to chromosome end replication by synthesizing repeats of telomeric DNA, and the telomeric DNA‐binding proteins protection of telomeres (POT1) and TPP1 synergistically increase its repeat addition processivity. To understand the mechanism of increased processivity, we measured the effect of POT1–TPP1 on individual steps in the telomerase reaction cycle. Under conditions where telomerase was actively synthesizing DNA, POT1–TPP1 bound to the primer decreased primer dissociation rate. In addition, POT1–TPP1 increased the translocation efficiency. A template‐mutant telomerase that synthesizes DNA that cannot be bound by POT1–TPP1 exhibited increased processivity only when the primer contained at least one POT1–TPP1‐binding site, so a single POT1–TPP1–DNA interaction is necessary and sufficient for stimulating processivity. The POT1–TPP1 effect is specific, as another single‐stranded DNA‐binding protein, gp32, cannot substitute. POT1–TPP1 increased processivity even when substoichiometric relative to the DNA, providing evidence for a recruitment function. These results support a model in which POT1–TPP1 enhances telomerase processivity in a manner markedly different from the sliding clamps used by DNA polymerases.