Transfection Efficiency (transfection + efficiency)

Distribution by Scientific Domains
Distribution within Life Sciences

Kinds of Transfection Efficiency

  • high transfection efficiency


  • Selected Abstracts


    Liposome-mediated transfection of mature taste cells

    DEVELOPMENTAL NEUROBIOLOGY, Issue 1 2005
    Ana Marie Landin
    Abstract The introduction and expression of exogenous DNA in neurons is valuable for analyzing a range of cellular and molecular processes in the periphery, e.g., the roles of transduction-related proteins, the impact of growth factors on development and differentiation, and the function of promoters specific to cell type. However, sensory receptor cells, particularly chemosensory cells, have been difficult to transfect. We have successfully introduced plasmids expressing green and Discosoma Red fluorescent proteins (GFP and DsRed) into rat taste buds in primary culture. Transfection efficiency increased when delaminated taste epithelium was redigested with fresh protease, suggesting that a protective barrier of extracellular matrix surrounding taste cells may normally be present. Because taste buds are heterogeneous aggregates of cells, we used ,-gustducin, neuronal cell adhesion molecule (NCAM), and neuronal ubiquitin carboxyl terminal hydrolase (PGP9.5), markers for defined subsets of mature taste cells, to demonstrate that liposome-mediated transfection targets multiple taste cell types. After testing eight commercially available lipids, we identified one, Transfast, that is most effective on taste cells. We also demonstrate the effectiveness of two common "promiscuous" promoters and one promoter that taste cells use endogenously. These studies should permit ex vivo strategies for studying development and cellular function in taste cells. © 2005 Wiley Periodicals, Inc. J. Neurobiol, 2005 [source]


    Efficient gene transfer from innervated muscle into rat peripheral and central nervous systems using a non-viral haemagglutinating virus of Japan (HVJ)-liposome method

    JOURNAL OF NEUROCHEMISTRY, Issue 3 2003
    Naoki Kato
    Abstract We evaluated the feasibility of gene delivery into the peripheral and central nervous systems via retrograde axonal transport following injection of a haemagglutinating virus of Japan (HVJ)-liposome-DNA complex vector into an innervated muscle. Transfection efficiency was assessed by measuring luciferase activity, and was compared statistically with that achieved using a liposome-DNA control vector. High luciferase activity was observed in the injected muscle, the ipsilateral sciatic nerve, and the ipsilateral dorsal root ganglia on day 1 after gene transfer. The spinal cord also showed luciferase activity, although this was lower than in the other tissues. However, no activity was observed in the contralateral sciatic nerve or the contralateral dorsal root ganglia. In addition, we performed gene transfer twice, with a 1-week interval, to evaluate the feasibility of repeated therapeutic gene delivery. Again, a high transfection efficiency was observed immediately, even after the second gene transfer, and transfection efficiency was significantly higher at each defined time-point using the HVJ-liposome complex vector than using a control vector. These results indicate that this method could be used for repeated therapeutic gene delivery into muscle, nerve, dorsal root ganglia, and possibly spinal cord, without the need for a surgical approach, making it well suited to clinical applications. [source]


    Gene Therapy in HIV-Infected Cells to Decrease Viral Impact by Using an Alternative Delivery Method

    CHEMMEDCHEM, Issue 6 2010
    Teresa Gonzalo Dr.
    Abstract The ability of dendrimer 2G-[Si{O(CH2)2N(Me)2+(CH2)2NMe3+(I,)2}]8 (NN16) to transfect a wide range of cell types, as well as the possible biomedical application in direct or indirect inhibition of HIV replication, was investigated. Cells implicated in HIV infection such as primary peripheral blood mononuclear cells (PBMC) and immortalized suspension cells (lymphocytes), primary macrophages and dendritic cells, and immortalized adherent cells (astrocytes and trophoblasts) were analyzed. Dendrimer toxicity was evaluated by mitochondrial activity, cell membrane rupture, release of lactate dehydrogenase, erythrocyte hemolysis, and the effect on global gene expression profiles using whole-genome human microarrays. Cellular uptake of genetic material was determined using flow cytometry and confocal microscopy. Transfection efficiency and gene knockdown was investigated using dendrimer-delivered antisense oligonucleotides and small interfering RNA (siRNA). Very little cytotoxicity was detected in a variety of cells relevant to HIV infection and erythrocytes after NN16 dendrimer treatment. Imaging of cellular uptake showed high transfection efficiency of genetic material in all cells tested. Interestingly, NN16 further enhanced the reduction of HIV protein 24 antigen release by antisense oligonucleotides due to improved transfection efficiency. Finally, the dendrimer complexed with siRNA exhibited therapeutic potential by specifically inhibiting cyclooxygenase-2 gene expression in HIV-infected nervous system cells. NN16 dendrimers demonstrated the ability to transfect genetic material into a vast array of cells relevant to HIV pathology, combining high efficacy with low toxicity. These results suggest that NN16 dendrimers have the potential to be used as a versatile non-viral vector for gene therapy against HIV infection. [source]


    Investigation on characterization and transfection of a novel multi-polyplex gene delivery system

    JOURNAL OF APPLIED POLYMER SCIENCE, Issue 2 2007
    Yu Nie
    Abstract pDNA was condensed by polycationic peptide polylysine (PLL) to form a core, and then encapsulated in biodegradable monomethoxy (poly ethylene glycol)-poly(lactide- co -glycolide)-monomethoxy (poly ethylene glycol) (PELGE) to form core-shell nanoparticles (NPs) as a novel multi-polyplex gene delivery system,PPD(PELGE-PLL-DNA). NPs were prepared by a double emulsification-solvent evaporation technique, using F68 (Pluronic F68, namely Poloxamer 188) as surfactant (not traditional stabilizer PVA), and characterized by morphology, particle size, zeta potential, nuclease, and sonication protection ability, as well as transfection efficiency. Results showed that PPD had a regular spherical shape, with an average diameter of 155 ± 2.97 nm and a zeta potential of ,25.6 ± 1.35 mV. PPD could protect plasmid DNA from nuclease degradation and sonication during preparation, while the transfection efficiencies in HepG2 cells and Hela cells were much higher than that of NPs without PLL. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2007 [source]


    Fabrication, characterization and in vitro evaluation of poly(D,L -lactide- co -glycolide) microparticles loaded with polyamidoamine,plasmid DNA dendriplexes for applications in nonviral gene delivery

    JOURNAL OF PHARMACEUTICAL SCIENCES, Issue 1 2010
    Janjira Intra
    Abstract We report, for the first time, on the preparation, characterization and in vitro testing of poly(D,L -lactide- co -glycolide) (PLGA) microparticles loaded with polyamidoamine (PAMAM),plasmid DNA (pDNA) dendriplexes. Loading of pDNA into the PLGA microparticles increased by 150% when pDNA was first complexed with PAMAM dendrimers relative to loading of pDNA alone. Scanning electron microscopy (SEM) showed that the presence of PAMAM dendrimers in the PLGA microparticles created porous features and indentations on the surface of the microparticles. Loading PLGA microparticles with PAMAM,pDNA dendriplexes lowered the average PLGA microparticle size and changed the surface charge of the microparticles from negative to positive when compared to PLGA microparticles loaded with pDNA alone. The zetapotential and buffering capacity of the microparticles increased as the generation of the PAMAM dendrimer loaded in the PLGA microparticles increased. Gel electrophoresis assays showed that all the PLGA microparticle formulations were able to entrap the pDNA within the PLGA matrix. There was no significant difference in the cytotoxicity of PLGA microparticles loaded with PAMAM,pDNA dendriplexes when compared to PLGA microparticles loaded with pDNA alone. Furthermore, and in contrast to PAMAM dendrimers alone, the generation of the PAMAM dendrimer loaded in the PLGA microparticles had no significant impact on cytotoxicity or transfection efficiencies in human embryonic kidney (HEK293) or Monkey African green kidney fibroblast-like (COS7) cells. The transfection efficiency of PLGA microparticles loaded with generation 3 (G3) PAMAM,pDNA dendriplexes was significantly higher than PLGA microparticles loaded with pDNA alone in HEK293 and COS7 cells. PLGA microparticles loaded with G3 PAMAM,pDNA dendriplexes generated equivalent transfection efficiencies as (G3 to G6) PAMAM,pDNA dendriplexes alone in COS7 cells when the transfection was carried out in serum containing media. The delivery system developed in this report has low toxicity, high pDNA loading efficiencies and high transfection efficiencies that are not reduced in the presence of serum. A delivery system with these characteristics is expected to have significant potential for translational applications. © 2009 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 99:368,384, 2010 [source]


    Improving Gene Delivery Efficiency of Bioreducible Poly(amidoamine)s via Grafting with Dendritic Poly(amidoamine)s

    MACROMOLECULAR BIOSCIENCE, Issue 4 2010
    Ya-Nan Xue
    Abstract Dendritic poly(amidoamine)s (PAMAM)s were introduced into the side chains of disulfide-containing poly(amidoamine)s via repetitive Michael addition and amidation. The bioreducible poly(amidoamine)s grafted with dendritic polyamidoamines showed high buffer capacity, low cytotoxicity and strong DNA binding ability at low N/P ratio. They were able to condense DNA into small sized polycation/DNA complexes, which degraded and released the incorporated DNA under reductive conditions. In comparison to the original disulfide-containing poly(amidoamine) with aminoethyl side chain, the grafting of the bioreducible poly(amidoamine) with dendrimer greatly improved the transfection efficiencies of 293T and HeLa cells with foreign DNA at various N/P ratios. The structure,gene delivery property relations of dendrimer-grafted polycations will provide valuable insight into the design of highly efficient and less toxic polycationic gene carriers. [source]


    Scalable production of adeno-associated virus type 2 vectors via suspension transfection,

    BIOTECHNOLOGY & BIOENGINEERING, Issue 3 2006
    Joon Young Park
    Abstract Vectors derived from adeno-associated virus type 2 (AAV2) are promising gene delivery vehicles, but it is still challenging to get the large number of recombinant adeno-associated virus (rAAV) particles required for large animal and clinical studies. Current transfection technology requires adherent cultures of HEK 293 cells that can only be expanded by preparing multiple culture plates. A single large-scale suspension culture could replace these multiple culture preparations, but there is currently no effective co-transfection scheme for generating rAAV from cells in suspension culture. Here, we weaned HEK 293 cells to suspension culture using hydrogel-coated six-well culture plates and established an efficient transfection strategy suitable for these cells. Then the cultures were gradually scaled up. We used linear polyethylenimine (PEI) to mediate transfection and obtained high transfection efficiencies ranging from 54% to 99%, thereby allowing efficient generation of rAAV vectors. Up to 1013 rAAV particles and, more importantly, up to 1011 infectious particles were generated from a 2-L bioreactor culture. The suspension-transfection strategy of this study facilitates the homogeneous preparation of rAAV at a large scale, and holds further potential as the basis for establishing a manufacturing process in a larger bioreactor. © 2006 Wiley Periodicals, Inc. [source]


    Paper and market watch

    BIOTECHNOLOGY JOURNAL, Issue 8 2008
    Article first published online: 13 AUG 200
    From our sister journals Other publications New on the market: New amaxa Stem Cell Kits provide transfection efficiencies of up to 80% Thermo Scientific Exactive: The new Benchtop LC-MC Taking routine clinical diagnostics tasks off your hands [source]


    Synthesis and Transfection Activity of New Cationic Phosphoramidate Lipids: High Efficiency of an Imidazolium Derivative

    CHEMBIOCHEM, Issue 9 2008
    Mathieu Mével Dr.
    Abstract In an effort to enhance the gene-transfer efficiencies of cationic lipids and to decrease their toxicities, a series of new phosphoramidate lipids with chemical similarity to cell membrane phospholipids was synthesised. These lipids contained various cationic headgroups, such as arginine methyl ester, lysine methyl ester, homoarginine methyl ester, ethylenediamine, diaminopropane, guanidinium and imidazolium. Their transfection abilities, either alone or with the co-lipid DOPE, were evaluated in HEK293,T7 cells. We found that imidazolium lipophosphoramidate 7,a/DOPE lipoplexes gave the most efficient transfection with low toxicity (15,%). The luciferase activity was 100 times higher than that obtained with DOTAP/DOPE lipoplexes. The size, , potential, pDNA,liposome interactions and cellular uptakes of the lipoplexes were determined. No definitive correlation between the , potential values and the transfection efficiencies could be established, but the uptake of lipoplexes by the cells was correlated with their final transfection efficiencies. Our results show that imidazolium phosphoramidate lipids constitute a potential new class of cationic lipids for gene transfer. [source]


    Construction of Polyethyleneimine-,-cyclodextrin/pDNA Multilayer Structure for Improved In Situ Gene Transfection,

    ADVANCED ENGINEERING MATERIALS, Issue 1-2 2010
    Yan Hu
    This study reports in situ gene delivery from gene-functionalized poly(D,L -lactic acid) (PDLLA, Mw of around 2.0,×,105,g,mol,1) films, which were constructed via layer-by-layer (LbL) assembly technique with low molecular weight polyethylenimine-,-cyclodextrin (PEI-CD) conjugate and plasmid DNA (pDNA). PEI-CD was characterized by Fourier transform infrared spectroscopy (FTIR) and nuclear magnetic resonance (NMR), respectively. The buildup of multilayered PEI-CD/pDNA pairs onto PDLLA films was monitored with contact angle measurements and UV,Vis spectrometer, respectively. A sustained release of pDNA from multilayered films was observed for 28,h. The mechanism of in situ gene delivery on PDLLA film was investigated in this study as well. Spherical PEI-CD/pDNA complexes were formed and released following the deconstruction of multilayered films, which was confirmed by transmission electron microscopy (TEM) and gel electrophoresis, respectively. Surface mediated in situ gene transfection was achieved when culturing hepatoma G2 (HepG2) and human embryonic kidney 293 (HEK293) onto PEI-CD/pDNA multilayered films. Furthermore, PEI-CD improved the gene transfection efficiency when compared with that of PEI. Such gene-functionalized biomaterial reported here has potential application in tissue engineering and implant technology. [source]


    Long-term establishment, characterization and manipulation of cell lines from mouse basal cell carcinoma tumors

    EXPERIMENTAL DERMATOLOGY, Issue 9 2006
    Po-Lin So
    Abstract:, There have been few reports of successful long-term culture of cells established from cutaneous basal cell carcinoma (BCC) tumors. Here, we describe techniques that have enabled us to establish three long-term cultures of BCC cells isolated from BCC tumors that arose in irradiated Patched 1 (Ptch1)+/, mice. All three cell lines showed cellular morphology similar to that of BCC tumors and could be propagated for at least 20 passages. In addition, similar to BCC tumors, all cell lines had lost the wildtype Ptch1 allele, expressed BCC molecular markers, and responded similarly to cyclopamine, a small molecule inhibitor of Hedgehog signaling. Finally, we describe an efficient electroporation technique for DNA transfection into the BCC cell lines and show that they have activated Hedgehog signaling activity, albeit at a level lower than that of murine BCCs in vivo. These data indicate that the cell lines are bona fide long-term cultures of BCC cells and that DNA plasmids can be introduced into the BCC cell lines with relatively high transfection efficiency using a modified electroporation technique. [source]


    Nucleofection: a new, highly efficient transfection method for primary human keratinocytes,

    EXPERIMENTAL DERMATOLOGY, Issue 4 2005
    Jörg H. W. Distler
    Abstract:, Transfection is an essential tool for numerous in vitro applications including studies of gene expression, promoter analysis, and intracellular signaling pathways and also for therapeutic strategies such as tissue engineering and gene therapy. However, transfection of primary cells including keratinocytes with common methods such as calcium phosphate, DEAE-dextran, liposome-mediated transfer, electroporation or viral vectors is problematic because of low transfection efficiency and the induction of terminal differentiation. Here we analyzed the use of nucleofection, a new, electroporation-based transfection method that enables the DNA to enter directly the nucleus, for the transfection of keratinocytes. Several different conditions were tested and optimized, resulting in a final transfection efficiency of 56% in primary human epidermal keratinocytes. This efficiency is superior to all non-viral transfection methods reported so far. The number of non-viable keratinocytes after nucleofection was low, varying between 14 and 16%. In contrast to other transfection protocols, nucleofection did not induce terminal differentiation in the transfected keratinocytes. In addition, nucleofection is a fast method, because the results can be analyzed within 7 h. In summary, nucleofection is a fast, easy and highly effective alternative for the transfection of primary human keratinocytes, which offers new opportunities for various research applications. [source]


    Investigation on characterization and transfection of a novel multi-polyplex gene delivery system

    JOURNAL OF APPLIED POLYMER SCIENCE, Issue 2 2007
    Yu Nie
    Abstract pDNA was condensed by polycationic peptide polylysine (PLL) to form a core, and then encapsulated in biodegradable monomethoxy (poly ethylene glycol)-poly(lactide- co -glycolide)-monomethoxy (poly ethylene glycol) (PELGE) to form core-shell nanoparticles (NPs) as a novel multi-polyplex gene delivery system,PPD(PELGE-PLL-DNA). NPs were prepared by a double emulsification-solvent evaporation technique, using F68 (Pluronic F68, namely Poloxamer 188) as surfactant (not traditional stabilizer PVA), and characterized by morphology, particle size, zeta potential, nuclease, and sonication protection ability, as well as transfection efficiency. Results showed that PPD had a regular spherical shape, with an average diameter of 155 ± 2.97 nm and a zeta potential of ,25.6 ± 1.35 mV. PPD could protect plasmid DNA from nuclease degradation and sonication during preparation, while the transfection efficiencies in HepG2 cells and Hela cells were much higher than that of NPs without PLL. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2007 [source]


    Studies on the condensation of depolymerized chitosans with DNA for preparing chitosan-DNA nanoparticles for gene delivery applications

    JOURNAL OF BIOMEDICAL MATERIALS RESEARCH, Issue 2 2009
    Viola B. Morris
    Abstract High molecular weight chitosan (CS) was depolymerized by oxidative degradation with NaNO2 at room temperature to get 11 samples of CS derivatives of varying molecular weights with a view to assessing their effective molecular weight range for gene delivery applications. Viscosity studies indicated that the molecular weight of the depolymerized CS was proportional to the CS/NaNO2 ratio. The condensation behavior of DNA/CS complexes at various charge ratios was studied using UV spectroscopy, FTIR, CD, SEM, and AFM. The results indicated that CSs having very low molecular weights and high charge density exhibited strong binding affinity to DNA compared to high molecular weight CSs. However, the very low molecular weight (1.9,7.7 kDa) CSs were found to form aggregates easily even at very low charge ratios. On the other hand, CSs having medium molecular weight (49,51 kDa) and high degree of deacetylation (DD) gave stable uniform-sized nanoparticles. Biological studies carried out with the spherical nano-sized polyplexes formed between CS of 50 kDa (DD of 94%) and pEGFP plasmid DNA at N/P ratio of 5.0 showed excellent gene transfection efficiency at pH 6.5 in HeLa cells without cytotoxicity indicating their potential as genedelivery carriers. © 2008 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 2009 [source]


    Synthesis and characterization of dexamethasone-conjugated linear polyethylenimine as a gene carrier

    JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 3 2010
    Hyunjung Kim
    Abstract Linear polyethylenimine (25,kDa, LPEI25k) has been shown to be an effective non-viral gene carrier with higher transfection and lower toxicity than branched polyethylenimine (BPEI) of comparable molecular weight. In this study, dexamethasone was conjugated to LPEI25k to improve the efficiency of gene delivery. Dexamethasone is a synthetic glucocorticoid receptor ligand. Dexamethasone-conjugated LPEI25k (LPEI,Dexa) was evaluated as a gene carrier in various cells. Gel retardation assays showed that LPEI,Dexa completely retarded plasmid DNA (pDNA) at a 0.75:1 weight ratio (LPEI/pDNA). LPEI,Dexa had the highest transfection efficiency at a 2:1 weight ratio (LPEI,Dexa/DNA). At this ratio, the size of the LPEI,Dexa/pDNA complex was approximately 125,nm and the zeta potential was 35,mV. LPEI,Dexa had higher transfection efficiency than LPEI and Lipofectamine 2000. In addition, the cytotoxicity of LPEI,Dexa was much lower than that of BPEI (25,kDa, BPEI25k). In conclusion, LPEI,Dexa has a high transfection efficiency and low toxicity and can therefore be used for non-viral gene delivery. J. Cell. Biochem. 110: 743,751, 2010. © 2010 Wiley-Liss, Inc. [source]


    Efficient gene transfer from innervated muscle into rat peripheral and central nervous systems using a non-viral haemagglutinating virus of Japan (HVJ)-liposome method

    JOURNAL OF NEUROCHEMISTRY, Issue 3 2003
    Naoki Kato
    Abstract We evaluated the feasibility of gene delivery into the peripheral and central nervous systems via retrograde axonal transport following injection of a haemagglutinating virus of Japan (HVJ)-liposome-DNA complex vector into an innervated muscle. Transfection efficiency was assessed by measuring luciferase activity, and was compared statistically with that achieved using a liposome-DNA control vector. High luciferase activity was observed in the injected muscle, the ipsilateral sciatic nerve, and the ipsilateral dorsal root ganglia on day 1 after gene transfer. The spinal cord also showed luciferase activity, although this was lower than in the other tissues. However, no activity was observed in the contralateral sciatic nerve or the contralateral dorsal root ganglia. In addition, we performed gene transfer twice, with a 1-week interval, to evaluate the feasibility of repeated therapeutic gene delivery. Again, a high transfection efficiency was observed immediately, even after the second gene transfer, and transfection efficiency was significantly higher at each defined time-point using the HVJ-liposome complex vector than using a control vector. These results indicate that this method could be used for repeated therapeutic gene delivery into muscle, nerve, dorsal root ganglia, and possibly spinal cord, without the need for a surgical approach, making it well suited to clinical applications. [source]


    Novel two-stage screening procedure leads to the identification of a new class of transfection enhancers

    THE JOURNAL OF GENE MEDICINE, Issue 6 2006
    Birgit Neukamm
    Abstract Background Non-viral gene transfer efficiency is low as compared to viral vector systems. Here we describe the discovery of new drugs that are capable of enhancing non-viral gene transfer into mammalian cells using a novel two-stage screening procedure. Methods First, potential candidates are preselected from a molecular library at various concentrations by a semi-automated yeast transfection screen (YTS). The maximal transfection efficiency of every positive drug is subsequently determined in independent experiments at the optimal concentration and compared to the inhibitory effect of the drug on cell growth (IC50). In a subsequent mammalian cell transfection screen (MTS), the maximal transfection efficiency and the IC50 are determined for all preselected drugs using a human cell line and a luciferase reporter gene construct. Results Employing our novel system we have been able to identify a new class of transfection enhancers, the tricyclic antidepressants (i.e. doxepin, maprotiline, desipramine and amoxapine). All positive drugs enhanced gene transfer in both yeast and human cell lines, but lower concentrations were sufficient for mammalian cells. With a triple combination of doxepin, amoxapine and chloroquine we obtained a transfection efficiency that exceeded that of chloroquine, one of the best-known transfection enhancers of mammalian cells, by nearly one order of magnitude. Conclusions Non-viral gene transfer efficiency can be increased significantly using new transfection enhancers that are identified by a novel, semi-automated two-stage screening system employing yeast cells in the first and specific human target cells in the second round. Copyright © 2006 John Wiley & Sons, Ltd. [source]


    Nuclear-targeted minicircle to enhance gene transfer with non-viral vectors in vitro and in vivo

    THE JOURNAL OF GENE MEDICINE, Issue 6 2006
    Laurence Vaysse
    Abstract Background To develop more efficient non-viral vectors, we have previously described a novel approach to attach a nuclear localisation signal (NLS) to plasmid DNA, by generating a fusion protein between the tetracycline repressor protein TetR and an SV40 NLS peptide (TetR-NLS). The high affinity of TetR for the DNA sequence tetO is used to bind the NLS to DNA. We have now investigated the ability of this system displaying the SV40 NLS or HIV-1 TAT peptide to enhance nuclear import of a minimised DNA construct more suitable for in vivo gene delivery: a minicircle. Methods We have produced a new LacZ minicircle compatible with the TetR system. After transfection of the minicircle in combination with TetR-NLS or TetR-TAT using different transfection agents, we first measured ,-galactosidase activity in vitro. We then used a special delivery technique, in which DOTAP/cholesterol liposomes and DNA/protein complexes are sequentially injected intravenously, to evaluate the activity of this system in vivo. Results In vitro results showed a 30-fold increase in transfection efficiency of the nuclear-targeted minicircle compared to normal plasmid lipofection. Results on cell cycle arrested cells seem to indicate a different mechanism between the TetR-NLS and TetR-TAT. Finally, we demonstrate a more than 6-fold increase in ,-galactosidase expression in the mouse lung using the minicircle and the TetR-TAT protein. This increase is specific for the peptide sequence and is not observed with the control protein TetR. Conclusions Our results indicate that the combination of a minicircle DNA construct with a TetR nuclear-targeting system is able to potentiate gene expression of non-viral vectors. Copyright © 2006 John Wiley & Sons, Ltd. [source]


    Recent advances in rational gene transfer vector design based on poly(ethylene imine) and its derivatives

    THE JOURNAL OF GENE MEDICINE, Issue 8 2005
    Michael Neu
    Abstract The continually increasing wealth of knowledge about the role of genes involved in acquired or hereditary diseases renders the delivery of regulatory genes or nucleic acids into affected cells a potentially promising strategy. Apart from viral vectors, non-viral gene delivery systems have recently received increasing interest, due to safety concerns associated with insertional mutagenesis of retro-viral vectors. Especially cationic polymers may be particularly attractive for the delivery of nucleic acids, since they allow a vast synthetic modification of their structure enabling the investigation of structure-function relationships. Successful clinical application of synthetic polycations for gene delivery will depend primarily on three factors, namely (1) an enhancement of the transfection efficiency, (2) a reduction in toxicity and (3) an ability of the vectors to overcome numerous biological barriers after systemic or local administration. Among the polycations presently used for gene delivery, poly(ethylene imine), PEI, takes a prominent position, due to its potential for endosomal escape. PEI as well as derivatives of PEI currently under investigation for DNA and RNA delivery will be discussed. This review focuses on structure-function relationships and the physicochemical aspects of polyplexes which influence basic characteristics, such as complex formation, stability or in vitro cytotoxicity, to provide a basis for their application under in vivo conditions. Rational design of optimized polycations is an objective for further research and may provide the basis for a successful cationic polymer-based gene delivery system in the future. Copyright © 2005 John Wiley & Sons, Ltd. [source]


    Binding and elution strategy for improved performance of arginine affinity chromatography in supercoiled plasmid DNA purification

    BIOMEDICAL CHROMATOGRAPHY, Issue 2 2009
    F. Sousa
    Abstract New interesting strategies for plasmid DNA (pDNA) purification were designed, exploiting affinity interactions between amino acids and nucleic acids. The potential application of arginine-based chromatography to purify pDNA has been recently described in our work; however, to achieve higher efficiency and selectivity in arginine affinity chromatography, it is essential to characterize the behaviour of binding/elution of supercoiled (sc) isoforms. In this study, two different strategies based on increased sodium chloride (225,250 mm) or arginine (20,70 mm) stepwise gradients are described to purify sc isoforms. Thus, it was proved that well-defined binding/elution conditions are crucial to enhance the purification performance, resulting in an improvement of the final plasmids yields and transfection efficiency, as this could represent a significant impact on therapeutic applications of the purified sc isoform. Copyright © 2008 John Wiley & Sons, Ltd. [source]


    Recombinant mussel adhesive protein as a gene delivery material

    BIOTECHNOLOGY & BIOENGINEERING, Issue 2 2009
    Dong Soo Hwang
    Abstract Efficient target gene delivery into eukaryotic cells is important for biotechnological research and gene therapy. Gene delivery based on proteins, including histones, has recently emerged as a powerful non-viral DNA transfer technique. Here, we investigated the potential use of a recombinant mussel adhesive protein, hybrid fp-151, as a gene delivery material, in view of its similar basic amino acid composition to histone proteins, and cost-effective and high-level production in Escherichia coli. After confirming DNA binding affinity, we transfected mammalian cells (human 293T and mouse NIH/3T3) with foreign genes using hybrid fp-151 as the gene delivery carrier. Hybrid fp-151 displayed comparable transfection efficiency in both mammalian cell lines, compared to the widely used transfection agent, LipofectamineÔ 2000. Our results indicate that this mussel adhesive protein may be used as a potential protein-based gene-transfer mediator. Biotechnol. Bioeng. 2009;102: 616,623. © 2008 Wiley Periodicals, Inc. [source]


    Relating Chemical and Biological Diversity Space: A Tunable System for Efficient Gene Transfection

    CHEMBIOCHEM, Issue 12 2008
    Liisa D. Van Vliet Dr.
    Abstract Polyethyleneimine (PEI), a well-established nonviral transfection reagent, was combinatorially modified with varying proportions of methyl, benzyl, and n -dodecyl groups to create a library of 435 derivatized polymers. Screening of this library for transfection, DNA binding, and toxicity allows systematic correlation of the biological properties of our polymers to their derivatizations. Combinations of derivatizations bring about a 100-fold variation in transfection efficiency between library members. The best PEI derivatives exhibit increases in transfection efficiency of more than 80-fold over unmodified PEI (up to 28±7,% of cells transfected) and rival commercial reagents such as Lipofectamine 2000 (21±10,%) and JetPEI (32±5.0,%). In addition, we can identify compounds that are specifically tuned for efficient transfection in CHO-K1 over Ishikawa cells and vice versa, demonstrating that the approach can lead to cell-type selectivity of at least one order of magnitude. This work demonstrates that multivalent derivatization of a polymeric framework can create functional diversity substantially greater than the structural diversity of the derivatization building blocks and suggests an approach to a better understanding of the molecular underpinnings of transfection as well as their exploitation. [source]


    Immunimodulation of corneal epithelial cells following electroporation with mRNA encoding IL-10 and FasL

    ACTA OPHTHALMOLOGICA, Issue 2009
    N ZAKARIA
    Purpose The aim of this project is to transfect corneal epithelial cells with mRNA encoding IL-10 and FasL in order to evoke down modulation of allogenic T cell responses in an ex vivo model. Methods The corneal epithelial cells (CECs) will be electroporated initially using a reporter gene, EGFP, in order to optimize the transfection efficiency of the cells which will be detected using flow cytometry. Following this, we intend to transfect the cells with mRNA encoding IL-10 and FasL. The cells will then be labeled with antibodies against IL-10 and FasL and checked for expression of these molecules using flow cytometry. Cytokine secretion will also be detected using ELISA. IL-10 and FasL transfected cells will be co cultured with allogenic T cells and compared with control co cultures of allo-T cells with mock-electroporated CECs. After 5 days of culture, T cells will be analyzed for allogenic reactivity by ELISA for IFN-, production in the culture supernatant. Results We intend to show that it is possible to electroporate corneal epithelial cells effectively ex vivo with a reporter gene as well as with IL-10 and FasL. We hypothesize that this may induce tolerance in allogenic T cells and we intend to illustrate this in an ex vivo model using an epithelial-allo T cell co-culture. Conclusion This project aims to illustrate, in an ex vivo model, how gene insertion into corneal epithelial cells could possibly lead to improved cultivated limbal stem cell graft acceptance in patients with vascularized corneas. [source]


    Development of a Quadruple Imaging Modality by Using Nanoparticles

    CHEMISTRY - A EUROPEAN JOURNAL, Issue 37 2009
    Won Hwang
    Abstract The combination of nanotechnology with molecular imaging has great potential for the development of diagnostics and therapeutics, and multimodal imaging enables versatile applications from cell tracking in animals to clinical applications. Herein, we report a multimodal nanoparticle imaging system that is capable of concurrent fluorescence, bioluminescence, bioluminescence resonance energy transfer (BRET), positron emission tomography (PET) and magnetic resonance (MR) imaging in vivo. A cobalt,ferrite nanoparticle surrounded by rhodamine (MF) was conjugated with luciferase (MFB) and p -SCNbnNOTA (2-(4-isothiocyanatobenzyl)-1,4,7-triazacyclonane-1,4,7-triacetic acid) followed by 68GaCl3 (magnetic-fluorescent-bioluminescent-radioisotopic particle, MFBR). Confocal microscopy revealed good transfection efficiency of MFB into cells and BRET was also observed in MFB. A good correlation among rhodamine, luciferase, and 68GaCl3 was found in MFBR, and the activities of each imaging modality increased dose-dependently with the amount of MFBR in the C6 cells. In vivo optical images were acquired from the thighs of mice after intramuscular and subcutaneous injections of MFBR-laden cells. MicroPET and MR images showed intense radioactivity and ferromagnetic intensities with MFBR-laden cells. The multimodal imaging strategy could be used as potential imaging tools to track cells. [source]


    Gene Therapy in HIV-Infected Cells to Decrease Viral Impact by Using an Alternative Delivery Method

    CHEMMEDCHEM, Issue 6 2010
    Teresa Gonzalo Dr.
    Abstract The ability of dendrimer 2G-[Si{O(CH2)2N(Me)2+(CH2)2NMe3+(I,)2}]8 (NN16) to transfect a wide range of cell types, as well as the possible biomedical application in direct or indirect inhibition of HIV replication, was investigated. Cells implicated in HIV infection such as primary peripheral blood mononuclear cells (PBMC) and immortalized suspension cells (lymphocytes), primary macrophages and dendritic cells, and immortalized adherent cells (astrocytes and trophoblasts) were analyzed. Dendrimer toxicity was evaluated by mitochondrial activity, cell membrane rupture, release of lactate dehydrogenase, erythrocyte hemolysis, and the effect on global gene expression profiles using whole-genome human microarrays. Cellular uptake of genetic material was determined using flow cytometry and confocal microscopy. Transfection efficiency and gene knockdown was investigated using dendrimer-delivered antisense oligonucleotides and small interfering RNA (siRNA). Very little cytotoxicity was detected in a variety of cells relevant to HIV infection and erythrocytes after NN16 dendrimer treatment. Imaging of cellular uptake showed high transfection efficiency of genetic material in all cells tested. Interestingly, NN16 further enhanced the reduction of HIV protein 24 antigen release by antisense oligonucleotides due to improved transfection efficiency. Finally, the dendrimer complexed with siRNA exhibited therapeutic potential by specifically inhibiting cyclooxygenase-2 gene expression in HIV-infected nervous system cells. NN16 dendrimers demonstrated the ability to transfect genetic material into a vast array of cells relevant to HIV pathology, combining high efficacy with low toxicity. These results suggest that NN16 dendrimers have the potential to be used as a versatile non-viral vector for gene therapy against HIV infection. [source]


    A Flexible Method for the Conjugation of Aminooxy Ligands to Preformed Complexes of Nucleic Acids and Lipids

    CHEMMEDCHEM, Issue 9 2008
    James
    Abstract Attachment of targeted ligands to nonviral DNA or RNA delivery systems is a promising strategy that seeks to overcome the poor target selectivity generally observed in systemic delivery applications. Several methods have been developed for the conjugation of ligands to lipids or polymers, however, direct conjugation of ligands onto lipid, or polymer,nucleic acid complexes is not as straightforward. Here, we examine an oximation approach to directly label a lipoplex formulation. Specifically, we report the synthesis of a cationic diketo lipid DMDK, and its use as a convenient ligation tool for attachment of aminooxy-functionalized reagents after its complexation with DNA. We demonstrate the feasibility of direct lipoplex labeling by attaching an aminooxy-functionalized fluorescent probe onto pre-formed plasmid DNA,DMDK lipoplexes (luciferase, GFP). The results reveal that DMDK protects DNA from degradation on exposure to either DNase or human cerebral spinal fluid, and that simple mixing of DMDK lipoplexes with the aminooxy probe labels the complexes without sacrificing transfection efficiency. The biocompatibility and selectivity of this method, as well as the ease of bioconjugation, make this labeling approach ideal for biological applications. [source]


    Gene transfer to ovine corneal endothelium

    CLINICAL & EXPERIMENTAL OPHTHALMOLOGY, Issue 5 2001
    Sonja Klebe MBBS
    ABSTRACT Purpose: Modification of a donor cornea by gene therapy has potential to modulate irreversible rejection, the major cause of corneal graft failure. The sheep is a useful model for the human in this respect, as ovine endothelial cells are amitotic. The aim of the study was to investigate the ability of various non-viral and viral agents to transfer a reporter gene to ovine corneal endothelium. Methods: The non-viral agents Transfectin-10, Transfectin-20, Transfectin-50, SuperFect, Effectene and CLONfectin were used to deliver the reporter gene, Escherichia coli lacZ, to ovine corneal endothelium in vitro. A Herpes simplex virus-1 and an adenoviral vector each encoding E. coli lacZ were similarly tested. Infected corneas were organ-cultured for up to 7 days in vitro to allow transfection efficiency, duration of gene expression and toxicity attributable to each vector to be compared. Results: Scattered single or clusters of endothelial cells expressing the reporter gene were observed after transfection with CLONfectin, Transfectin-10, Transfectin-20 and Transfectin-50. SuperFect and Effectene were virtually in-effective. At best, the absolute number of infected cells per endothelial monolayer after 3 or 7 days of organ culture was estimated as < 0.01%. The Herpes simplex virus-1 vector also failed to transduce ovine corneal endothelium efficiently. In contrast, transfection rates of up to 70% of endothelial cells were observed with the adenoviral vector. Conclusion: Non-viral vectors and Herpes simplex virus-1 are unlikely to be suitable for gene therapy of corneal endothelium, because the efficiency of transfection is low compared with the rates achieved with adenoviral vectors. [source]