Novel non-viral method for transfection of primary leukemia cells and cell lines

BACKGROUND: Tumor cells such as leukemia and lymphoma cells are possible targets for gene therapy. However, previously leukemia and lymphoma cells have been demonstrated to be resistant to most of non-viral gene transfer methods. METHODS: The aim of this study was to analyze various methods for transfection of primary leukemia cells and leukemia cell lines and to improve the efficiency of gene delivery. Here, we evaluated a novel electroporation based technique called nucleofection. This novel technique uses a combination of special electrical parameters and specific solutions to deliver the DNA directly to the cell nucleus under mild conditions. RESULTS: Using this technique for gene transfer up to 75% of primary cells derived from three acute myeloid leukemia (AML) patients and K562 cells were transfected with the green flourescent protein (GFP) reporter gene with low cytotoxicity. In addition, 49(+/- 9.7%) of HL60 leukemia cells showed expression of GFP. CONCLUSION: The non-viral transfection method described here may have an impact on the use of primary leukemia cells and leukemia cell lines in cancer gene therapy.     

Highly efficient mRNA-based gene transfer in feeder-free cultured H9 human embryonic stem cells

Several protocols have been described for virus-based gene transfer in human embryonic stem (hES) cells, while efficient non-viral methods are currently non-existing. In this study, we investigated the efficiency of mRNA-based gene transfer in feeder-free cultured H9 hES cells, based on electroporation of in vitro transcribed mRNA encoding the enhanced green fluorescent protein (EGFP). Optimisation of culture and electroporation conditions for feeder-free cultured H9 hES cells resulted a highly pure, transgene-expressing (90% positive cells) H9 hES cell population.     

Red体内同源重组介导的egfp、kan基因融合和重组质粒构建

重组工程是近年来建立的一种基于高效率体内同源重组的新型遗传工程技术,可应用于靶DNA序列的敲入、敲除和基因克隆等。在应用重组工程技术进行基因亚克隆时发现,体外重叠PCR法难以获得高质量的目的DNA打靶片段,严重影响重组效率。为了解决上述问题,根据Red重组酶介导的体内同源重组工作原理进行了技术改进。先用PCR方法合成egfp和kan两条末端互补的线性DNA片段,然后将其电击共转化进入携带Red重组酶和pcDNA3．1载体DNA的大肠杆菌DY331菌株内,经体内同源重组直接产生的pcDNA3.1—egfp-kan环状重组质粒DNA分子可通过抗生素标记筛选获得,阳性率可达到45％。瞬时转染pcDNA3．1-egfp-kan可获得绿色荧光蛋白在293细胞中的表达。     

Operation of an efficient site-specific recombination system of Zygosaccharomyces rouxii in tobacco cells.

Recombinase encoded by the R gene of pSR1 of Zygosaccharomyces rouxii mediates reciprocal recombination between two specific recombination sites (RSs) to induce excision or inversion of the DNA segment that is flanked by the RSs. We report here that site-specific recombination mediated by this system takes place effeciently in tobacco cells. To monitor the recombination events in tobacco cells, we have constructed two types of cryptic beta-glucuronidase reporter gene in such a way that recombination such as inversion of the construct or excision of the intervening sequence results in their expression. When these cryptic reporter constructs were transiently introduced together with the R gene by electroporation into protoplasts of tobacco cells, beta-glucuronidase activity was detected. The cryptic reporter genes, when stably resident in the chromosome of tobacco cells, were also activated by the R gene. Structural analyses of the genomic DNA isolated from these tobacco cells showed that the R protein did in fact catalyze precise recombination between two copies of RSs in tobacco cells, with resultant activation of the cryptic reporter genes. This observation provides the basis for development of a DNA technology whereby large regions of DNA can be manipulated in plant chromosomes. Potential uses of this recombination system are discussed.     

An efficient gene transfer system for hematopoietic cell line using transient and stable vectors

The hematopoietic system represents an interesting model for gene transfer protocols. Here, we have evaluated the efficiency of a gene transfer system using the polycationic compound SuperFect (Qiagen) and the K562 hematopoietic cell line. Transient and stable vectors carrying the enhanced green fluorescent protein (EGFP) reporter gene were employed. The stable vector was constructed based on Epstein-Barr virus sequences such as EBV oriP (origin of replication) and EBNA (EBV nuclear antigen)-1, both for DNA replication. The transfection efficiency of the viable cells was estimated by flow cytometry at approximately 98% for transient and stable vectors. Transiently transfected cells presented optimal EGFP expression until day 2 when fluorescence started to decrease. In contrast, stable transfectants continuously expressed the marker gene product for 10 weeks in the presence of G418. Our results represent an efficient gene transfer method for K562 hematopoietic cells and may be used as an alternative approach for further gene transfer studies involving hematopoietic cells.     

Transduction of multiple cell types using improved conditions for gene delivery and expression of SV40 pseudovirions packaged in vitro

This comprehensive study demonstrates highly efficient transduction of a wide variety of human, murine, and monkey cell lines, using a procedure for in vitro packaging of plasmid DNA in recombinant simian virus 40 (SV40) capsid proteins to form pseudovirions. The pseudovirions are encapsidated by the VP1 major capsid protein, with no SV40 sequence requirement, and are able to carry up to 17.7 kb of supercoiled plasmid DNA. We developed a procedure to scale-up production of SV40 pseudovirions, as well as an efficient protocol to concentrate the virions with no loss of activity. We also developed a method that allows transduction of 10 times more cells than the original protocol. This protocol was tested using supercoiled in vitro-packaged plasmid carrying the human multidrug-resistance gene (MDR1 encoding P-glycoprotein; P-gp), or the enhanced green fluorescent protein reporter gene (EGFP) in .45 human lymphoblastoid cells and in K562 human erythroleukemia cells. Multiple transductions at 24-h intervals were shown to increase expression using the EGFP reporter gene. The protocols developed in this study establish in vitro-packaged SV40 pseudovirions as one of the most efficient gene delivery systems.     

Expression and recombination of the EGFP and EYFP genes in lentiviral vectors carrying two heterologous promoters

BACKGROUND: Expressing two genes in the progeny of stem and progenitor cells that are transduced with a unique viral vector is desirable in certain situations. We tested the ability of two lentiviral vectors to transduce human cells of hematopoietic origin and concomitantly express two reporter genes, either EGFP (enhanced green fluorescent protein) and DsRed2, or EGFP and EYFP (enhanced yellow fluorescent protein), from two internal promoters. METHODS: The vectors were generated from the pTRIP deltaU3 EF1alpha EGFP lentiviral vector. Following transduction of hematopoietic and non-hematopoietic cell lines, we performed FACS, PCR and Southern blot analyzes to quantify transduction, integration efficiencies and size of integrated lentiviral vectors, respectively. RESULTS: The detection of DsRed2 fluorescence appeared unexpectedly low in human cells of hematopoietic origin. Alternatively, a modification in the flow cytometry assay allowed us to distinguish between the two overlapping fluorescence signals emitted by EGFP and EYFP, when transduced cells were excited with a 488-nm laser beam. However, the low frequency of double-positive EGFP+ EYFP+ cells, and the existence of single-positive, mostly EGFP- EYFP+, cells, prompted us to search for recombinations in the vector sequence. Southern blotting of DNA obtained from transduced cells indeed demonstrated that recombination had occurred between the two closely related EGFP and EYFP sequences. DISCUSSION: These observations suggest that recombination occurred within the EGFP and EYFP genes, which differ by only four amino acids. We conclude that the insertion of two highly homologous sequences into a lentiviral backbone can favor recombination.     

mRNA Transfection of Mouse and Human Neural Stem Cell Cultures

The use of synthetic mRNA as an alternative gene delivery vector to traditional DNA-based constructs provides an effective method for inducing transient gene expression in cell cultures without genetic modification. Delivery of mRNA has been proposed as a safer alternative to viral vectors in the induction of pluripotent cells for regenerative therapies. Although mRNA transfection of fibroblasts, dendritic and embryonic stem cells has been described, mRNA delivery to neurosphere cultures has not been previously reported. Here we sought to establish an efficient method for delivering mRNA to primary neurosphere cultures. Neurospheres derived from the subventricular zone of adult mice or from human embryonic stem cells were transfected with EGFP mRNA by lipofection and electroporation. Transfection efficiency and expression levels were monitored by flow cytometry. Cell survival following transfection was examined using live cell counting and the MTT assay. Both lipofection and electroporation provided high efficiency transfection of neurospheres. In comparison with lipofection, electroporation resulted in increased transfection efficiencies, but lower expression per cell and shorter durations of expression. Additional rounds of lipofection renewed EGFP expression in neurospheres, suggesting this method may be suitable for reprogramming applications. In summary, we have developed a protocol for achieving high efficiency transfection rates in mouse and human neurosphere cell culture that can be applied for future studies of gene function studies in neural stem cells, such as defining efficient differentiation protocols for glial and neuronal linages.     

Comparison of non-viral transfection methods in melanoma cell primary cultures

Melanoma primary cultures were transiently transfected via electroporation and lipofection for comparison. Transfection efficiency was superior with electroporation (58+/-9%) as compared to lipofection (23+/-9%) as determined by enhanced green fluorescent plasmid (EGFP) transfection. Secretion of IL-2 persisted for up to 3 weeks after electroporation. The increase in sensitivity against immunologic effector cells by transfection with IL-2 was not significant. Our results show the feasibility of a gene transfer into primary human melanoma cells, different from retroviral transduction.     

表达EGFP报告基因口蹄疫病毒亚基因组复制子的构建

【目的】构建含有EGFP报告基因的口蹄疫病毒(FMDV)亚基因组复制子系统。【方法】利用融合PCR方法,将EGFP报告基因替换O型FMDV全长c DNA克隆中的前导蛋白Lb和结构蛋白P1基因,构建含有EGFP报告基因的FMDV亚基因组复制子FMDV-EGFP。复制子质粒连续转化、测序检验复制子载体的稳定性。Not I线性化的复制子FMDV-EGFP用脂质体介导法转染表达T7 RNA聚合酶的BSR/T7细胞后,不同时间段观察EGFP荧光表达情况。转染的细胞用流式、间接免疫荧光、RT-PCR和Western blot检测该复制子载体的自主复制能力和口蹄疫病毒蛋白的表达情况。【结果】复制子质粒的连续转化及测序表明报告基因可以稳定存在。FMDV-EGFP复制子转染BSR/T7细胞3 h后在荧光显微镜下能够看到绿色荧光,EGFP荧光信号随着转染时间的延长逐渐增加,并且荧光信号可持续6 d以上。转染24 h后的细胞流式分析显示转染的细胞中有6.0%发出荧光,说明构建的复制子载体能够有效表达EGFP蛋白。另外,间接免疫荧光、RT-PCR和Western blot方法也检测到该复制子RNA在BSR/T7细胞中能够进行自主复制,并且能够表达病毒的非结构蛋白。【结论】含有EGFP报告基因的FMDV亚基因组复制子的成功构建为进一步研究病毒复制、翻译机制及筛选抗病毒药物等奠定了坚实的基础。     

Optimisation of transfection conditions of CD34+ hematopoietic cells derived from human umbilical cord blood

Human umbilical cord blood is frequently used as a source of transplantable hematopoietic cells and more recently as a target of gene therapy - a new approach for treatment of various disorders. The aim of our study was optimisation of the transfection conditions of cord blood-derived CD34(+) hematopoietic cells. Mononuclear cells fraction was isolated from cord blood samples by density gradient centrifugation. Subsequently, CD34(+) hematopoietic cells were separated on immunomagnetic MiniMACS columns. Pure population of CD34(+) cells was incubated in a serum free medium supplemented with thrombopoietin, stem cell factor and Flt-3 ligand for 48 h and then transfected with plasmid DNA carrying the enhanced version of green fluorescent protein (EGFP) as a reporter gene. We studied the influence of various pulse settings and DNA concentrations on the transfection efficiency, measured by flow cytometry as the fluorescence of target cells due to the expression of EGFP. The optimal settings were as follows: 4 mm cuvette, 1600 microF, 550 V/cm, and 10 microg of DNA per 500 microl. With these settings we obtained a high transfection frequency (41.2%) without a marked decrease of cell viability. An increase of the pulse capacitance and/or of DNA concentration resulted in a greater electroporation efficiency, but also in a decrease of cell viability. In conclusion, the results described here allow one to recommend electroporation as an efficient method of gene delivery into CD34(+) hematopoietic cells derived from human umbilical cord blood.     

Strategy for increased efficiency of transfection in human cell lines using radio frequency electroporation

Traditional electroporation devices use direct current electric fields to stimulate the uptake of oligonucleotides, plasmids, short peptides, and proteins into a variety of cell types. A variation of this widely used technique is now available which relies on radio frequency (RF) electrical pulses. This oscillating type of electrical field reportedly elicits greater uptake of plasmid DNA across the plasma membrane. We evaluated a protocol for RF electroporation of the a human embryonic kidney cell line and a Burkitt's lymphoma (BL) cell line for effeciency of transfection by RF electroporation. The plasmid EGFP, which codes for the widely used fusion protein, enhanced green fluorescent protein (EGFP), was used as a reporter of plasmid uptake after transfections. Transfection efficiency consistently increased approximately 30% from that typically obtained with conventional DC type electroporation and was accompanied by greater survivability of cells. Additionally, in some instances, percent transfection efficiency increased to over 70%. Thus, RF electroporation represents an improved methodology for transfection of human cell lines. Moreover, the RF protocol is simple to incorporate in laboratories already utilizing conventional electroporation devices and techniques.     

氯化高铁血红素诱导K562细胞中β-珠蛋白基因表达的研究

以绿色荧光蛋白（EGFP）基因为报道基因,构建了在β－珠蛋白启动子驱动及HS2元件调控下的重组表达载体HG,用脂质体转染法将其转染到K562细胞中,并用RT－PCR方法及流式细胞仪检测氯化高铁血红素（Hm)对K562细胞中β－珠蛋白基因表达及重组载体HG在K562细胞中瞬时表达的影响。结果显示：用30μmol/L Hm诱导K562细胞24、48及72h后,不仅其γ－珠蛋白mRNA水平升高,其β－珠蛋白mRNA水平也明显上升,而且这种诱导作用在诱导24、48h后比较明显;Hm还可增强重组表达载体HG在K562细胞中的瞬时表达。提示Hm诱导红系分化的机理可能与γ→β珠蛋白基因的转换机制相关。     

Electroporation of primary neural cultures: a simple method for directed gene transfer in vitro

Gene transfer into cells of the nervous system is an important method to analyze tissue-specific gene functions. Although highest transfection efficiencies are generally obtained by viral gene transfer, non-viral methods are attractive because they are less labor intensive and more suitable for high throughput screening approaches. Here we describe an approach for electroporation-based gene transfer into primary neural cells isolated from dissociated murine cerebella. Using GFP as reporter molecule, we show that electroporation allows for efficient gene transfer into embryonic and postnatal neural cells under highly controlled experimental conditions. Furthermore we show that adaptation of electroporation parameters allowed for the preferential transfection of subsets of neural cells within the mixed primary culture. Using electroporation settings of high voltage and low capacitance (500 V/50 microF) we achieved a transfection efficiency of about 10% of small neural cells which were identified as granule cells by the expression of the granule cell-specific marker NeuN. At electroporation settings of 220 V/975 microF, large and stellate-shaped cells that comprised about 10% of the GFAP-positive population of astrocytes were preferentially transfected. We conclude that electroporation of primary neural cells can be used to target gene transfer to subsets of neural cells.     

Cell-penetrating DNA-binding protein as a safe and efficient naked DNA delivery carrier in vitro and in vivo

Non-viral gene delivery is a safe and suitable alternative to viral vector-mediated delivery to overcome the immunogenicity and tumorigenesis associated with viral vectors. Using the novel, human-origin Hph-1 protein transduction domain that can facilitate the transduction of protein into cells, we developed a new strategy to deliver naked DNA in vitro and in vivo. The new DNA delivery system contains Hph-1-GAL4 DNA-binding domain (DBD) fusion protein and enhanced green fluorescent protein (EGFP) reporter plasmid that includes the five repeats of GAL4 upstream activating sequence (UAS). Hph-1-GAL4-DBD protein formed complex with plasmid DNA through the specific interaction between GAL4-DBD and UAS, and delivered into the cells via the Hph-1-PTD. The pEGFP DNA was successfully delivered by the Hph-1-GAL4 system, and the EGFP was effectively expressed in mammalian cells such as HeLa and Jurkat, as well as in Bright Yellow-2 (BY-2) plant cells. When 10 μg of pEGFP DNA was intranasally administered to mice using Hph-1-GAL4 protein, a high level of EGFP expression was detected throughout the lung tissue for 7 days. These results suggest that an Hph-1-PTD-mediated DNA delivery strategy may be an useful non-viral DNA delivery system for gene therapy and DNA vaccines.     

Electroporation by nucleofector is the best nonviral transfection technique in human endothelial and smooth muscle cells

BACKGROUND: The aim of this study was to determine the optimal non-viral transfection method for use in human smooth muscle cells (SMC) and endothelial cells (EC). METHODS: Coronary Artery (CoA) and Aortic (Ao) SMC and EC were transfected with a reporter plasmid, encoding chloramphenicol acetyltransferase type 1 (CAT), with seven different transfection reagents, two electroporation methods and a photochemical internalization (PCI) method. CAT determination provided information regarding transfection efficiency and total protein measurement was used to reflect the toxicity of each method. RESULTS: Electroporation via the nucleofector machine was the most effective method tested. It exhibited a 10 to 20 fold (for SMC and EC, respectively) increase in transfection efficiency in comparison to the lipofection method combined with acceptable toxicity. FuGene 6 and Lipofectamine PLUS were the preferred transfection reagents tested and resulted in 2 to 60 fold higher transfection efficiency in comparison to the PCI which was the least effective method. CONCLUSION: This study indicates that electroporation via the nucleofector machine is the preferred non-viral method for in vitro transfection of both human aortic and coronary artery SMC and EC. It may be very useful in gene expression studies in the field of vascular biology. Through improved gene transfer, non-viral transfer techniques may also play an increasingly important role in delivering genes to SMC and EC in relevant disease states.     

用大肠杆菌同源重组获得克隆化重组腺病毒基因组

利用大肠杆菌细胞内质粒间同源重组获得克隆化重组腺病毒基因组 DNA,高效构建携带有外源基因的均一重组腺病毒 .将带有狂犬病毒糖蛋白 (GP)基因和加强型 GFP(enhanced GFP,EGFP)表达盒的重组穿梭质粒 p Ad- Track- CMV/ GP与腺病毒骨架载体质粒 p Ad Easy- 1一起同时电击共转化大肠杆菌 BJ51 83.在 BJ51 83细胞内 ,带有同源序列的重组穿梭质粒与骨架载体可进行同源重组 ,得到以质粒形式存在的克隆化重组腺病毒基因组 p Ad- GP’.以 p Ad- GP’为模板 ,经DNA测序确认 GP基因成功整合入此质粒中的腺病毒基因组 E1区外源基因表达盒中 .线形化的p Ad- GP’转染 2 93细胞后可得到基因组结构均一、在 E1区插入有 GP和 EGFP表达盒的重组腺病毒 ,病毒滴度可达 1× 1 0 8pfu/ ml.电镜下此重组病毒颗粒直径约为 70 nm,略呈球形 ,用荧光显微镜观察感染细胞有很强的 EGFP表达 .实验表明 :利用大肠杆菌同源重组获得克隆化的重组腺病毒基因组 DNA,可高效制备高滴度的均一重组腺病毒     

Temporally controlled site-specific mutagenesis in the germ cell lineage of the mouse testis

We have obtained a PrP-Cre-ER(T) transgenic mouse line (28.8) that selectively expresses in testis the tamoxifen-inducible Cre-ER(T) recombinase under the control of a mouse Prion protein (PrP) promoter-containing genomic fragment. Cre-ER(T) is expressed in spermatogonia and spermatocytes, but not in Sertoli and Leydig cells. We also established reporter PrP-L-EGFP-L transgenic mice harboring a LoxP-flanked enhanced green fluorescent protein (EGFP) Cre reporter cassette under the control of the same PrP promoter-containing genomic fragment that exhibits prominent EGFP expression in brain and testis. Using the PrP-L-EGFP-L as well as other Cre-reporter mice, we demonstrate that tamoxifen administration efficiently and selectively induces Cre-mediated recombination in the germ cell lineage. The established PrP-Cre-ER(T) line should provide a valuable tool for studying functions of germ cell-expressed genes involved in spermatogenesis.     

Gene Delivery Efficiency in Bone Marrow-derived Dendritic Cells: Comparison of Four Methods and Optimization for Lentivirus Transduction

Many gene delivery methods have been used to transduce or transfect bone marrow-derived dendritic cells (BMDCs) for genetic engineered DC vaccine research. The present study, for the first time, evaluated the efficiencies of four methods (lipofection, DNA electroporation, recombinant adeno-associated virus type 2 (rAAV2) transduction, and recombinant lentivirus (rLV) transduction) using EGFP as a report gene in the same BMDC culture system. Our data demonstrate that rLV transduction is the most effective method; both lipofection and DNA electroporation transfect BMDCs at lower efficiencies; rAAV2 can hardly transduce BMDCs. Furthermore, our results, for the first time, demonstrate that rLV transduction efficiency on BMDCs can be improved significantly by co-centrifugation and repeated transduction.