Transient expression of the uidA gene in Pinus pinea cotyledons: A study of heterologous promoter sequences

Transfer and expression of the β-glucuronidase gene (uidA) in cultured cotyledons of stone pine (Pinus pinea L.) was obtained by microprojectile bombardment. Conditions for optimum transient expression were established by using plasmid pBI121 delivered by 1.0 μm-diameter gold particles, into 1-day-old cultured cotyledons. Helium pressure of 6.2 MPa, microcarrier travel distance of 6 cm, and 0.8 μg of plasmid DNA per bombardment, were the best parameters for high levels of transient uidA expression. By using these parameters, 98% of bombarded cotyledons showed β-glucuronidase activity, with a mean of 63 Gus foci per cotyledon. This system was used to study the expression of uidA gene driven by several heterologous promoters. The expression under the control of the sunflower polyubiquitin gene (UbB1) promoter (Δ1 deletion) was higher (99% of GUS positive cotyledons) than under the control of the CaMV35S promoter, whereas the rice actin and the maize alcohol dehydrogenase gene promoters gave lower uidA expression, as determined histochemically. These results were confirmed by using the GUS fluorometric assay. Use of a deletion of the sunflower polyubiquitin promoter resulted in GUS activity detectable 35 days after bombardment, and significant levels of GUS activity were confirmed at the end of that period. The results will be useful to design protocols for stable transformation and high levels of transgene expression in P. pinea. This revised version was published online in June 2006 with corrections to the Cover Date.     

Transient expression of a reporter gene in bulbscales and immature embryos of three Lilium species is affected by 5'upstream sequences and culture conditions

In Lilium , a transformation system has not yet been developed. For efficient selection of cells expressing transferred genes following particle bombardment, the effects of 5'upstream regions on the transient expression of the β-glucuronidase gene ( gusA ) were estimated in bulbscales and immature embryos of lily. When four plasmids having the gusA gene under the control of the cauliflower mosaic virus (CaMV) 35S, maize alcohol dehydrogenase gene and rice actin gene ( Actl ) promoters, and the castor bean catalase introm were introduced by particle bombardment, the patterns of transient expression in the bulbscales showed differences among three Lilium species, L. x formolongi, L. dauricum and L. japonicum . In immature embryos of L x formolongi , transient expression was significantly influenced by age of embryos after self-pollination, duration of culture before bombardment, and culture conditions. Moreover, the transient gusA expression driven by six different 5'upstream regions, including the maize ubiquitin gene promoter and a modified CaMV 35S promoter were compared in both bulbscales and immature embryos. Use of the Actl and modified CaMV 35S promoters resulted in the greatest number of cells that transiently expressed gusA in both types of tissue of L. x formolongi . These two promoters are efficient for use in lily transformation.     

Multiple Tissue Transformation in Adult Zebrafish by Gene Gun Bombardment and Muscular Injection of Naked DNA

The efficiency of two direct gene transfer methods, gene gun (or particle bombardment) and intramuscular injection, in transforming adult zebrafish tissues in vivo was examined by a noninvasive approach using green fluorescent protein (GFP) reporter gene driven by the ubiquitously expressed human cytomegalovirus promoter. Particle bombardment of adult zebrafish caused internalization and expression of the plasmid only in the superficial layer such as epithelial cells, pigment cells, endothelial cells, and neurons, whereas direct injection primarily transformed muscle fibers of several bundles near or around the injection site. Expression was also evident in several nonmuscle tissues, such as skin epithelia, pigment cells, blood vessel cells, and neuron-like cells. GFP expression persisted for more than 50 days with both methods. These observations indicate the potential of these methods for functional analysis of tissue-specific promoters, delivery of DNA vaccine, and muscular expression of other useful genes. Received June 12, 2000; accepted September 12, 2000     

Factors affecting transient gene expression in cultured radiata pine cotyledons following particle bombardment

Transfer and expression of the β–glucuronidase gene ( gusA ) in cultured cotyledons of radiata pine ( Pinus radiata D. Don ) were obtained by particle bombardment. Conditions for optimum transient expression were established by using plasmid pB[/12], delivered by gold particles, 1.6 μm in diameter, into 8-day-old cultured cotyledons. Helium pressure of 7.6 MPa, bombardment distance between the stopping screen and the target tissues of 6 cm, and 0.8 μg of plasmid DNA per bombardment proved to be the best parameters for transient expression; using these parameters 79% of bombarded cotyledons showed GUS activity, with 4.3 blue spots per cotyledon. This system was used for studying the expression of several gus-driven promoters the expression of the sunflower ubiquitin gene promoter was higher (99% of positive cotyledons, with 14.2 blue spots per cotyledon) than that of the CaMV 35S promoter, whereas the rice actin and the maize alcohol dehydrogenase gene promoters gave lower gusA expression, as determined histochemically. These results were confirmed by using the gus fluorometric assay. Use of the sunflower ubiquitin gene promoter resulted in gusA expression up to 20 days after bombardment, with a significant level of gus expressing loci per bombarded cotyledon, whereas with the CaMV 35S promoter gusA expression was lost 12 days after bombardment.     

Correlation between the levels of survivin and survivin promoter-driven gene expression in cancer and non-cancer cells

Survivin, a member of the inhibitor of apoptosis (IAP) protein family, is associated with malignant transformation and is over-expressed in most human tumors. Using lipoplex-mediated transfection, we evaluated the activity of the reporter enzyme, luciferase, expressed from plasmids encoding the enzyme under the control of either the cytomegalovirus (CMV) or survivin promoters, in tumor- and non-tumor-derived human and murine cells. We also examined whether there is a correlation between the survivin promoter-driven expression of luciferase and the level of endogenous survivin. Human cancer cells (HeLa, KB, HSC-3, H357, H376, H413), oral keratinocytes, GMSM-K, and chemically immortalized human mammary cells, 184A-1, were transfected with Metafectene at 2 μl/1 μg DNA. Murine squamous cell carcinoma cells, SCCVII, mouse embryonic fibroblasts, NIH-3T3, and murine immortalized mammary cells, NMuMG, were transfected with Metafectene PRO at 2 μl/1 μg DNA. The expression of luciferase was driven by the CMV promoter (pCMV.Luc), the human survivin promoter (pSRVN.Luc-1430), or the murine survivin promoters (pSRVN.Luc-1342 and pSRVN.Luc-194). Luciferase activity was measured, using the Luciferase Assay System and expressed as relative light units (RLU) per ml of cell lysate or per mg of protein. The level of survivin in the lysates of human cells was determined by ELISA and expressed as ng survivin/mg protein. In all cell lines, significantly higher luciferase activity was driven by the CMV promoter than by survivin promoters. The expression of luciferase driven by the CMV and survivin promoters in murine cells was much higher than that in human cells. The cells displayed very different susceptibilities to transfection; nevertheless, high CMV-driven luciferase activity appeared to correlate with high survivin-promoter driven luciferase expression. The survivin concentration in lysates of cancer cells ranged from 5.8 ± 2.3 to 24.3 ± 2.9 ng/mg protein (mean, 13.7 ng/mg). Surprisingly, elevated survivin protein was determined in lysates of non-tumor-derived cells. Survivin levels for GMSM-K and 184A-1 cells, were 16.7 ± 8.7 and 13.5 ± 6.2 ng/mg protein, respectively. The expression of endogenous survivin did not correlate with the level of survivin promoter-driven transgene activity in the same cells. The expression of survivin by non-tumorigenic, transformed cell lines may be necessary for their proliferative activity. The level of survivin promoter-driven gene expression achieved via liposomal vectors in OSCC cells was too low to be useful in cancer-cell specific gene therapy.     

Transfection by particle bombardment: Delivery of plasmid DNA into mammalian cells using gene gun

Background

Recently, particle bombardment has become increasingly popular as a transfection method, because of a reduced dependency on target cell characteristics. In this study, we evaluated in vitro gene transfer by particle bombardment.

Methods

gWIZ luciferase and gWIZ green fluorescent protein (GFP) plasmids were used as reporter genes. Mammalian cell lines HEK 293, MCF7 and NIH/3T3 were used in the transfection experiments. Transfection was performed by bombardment of the cells with gene-coated gold particles using the Helios Gene Gun. The technology was assessed by analyzing gene expression and cell damage. Cell damage was evaluated by MTT assay.

Results

This technology resulted in efficient in vitro transfection, even in the cells which are difficult to transfect. The gene expression was dependent on the gene gun's helium pressure, the sizes of the gold particles, the amount of the particles and DNA loading, while cell viability was mostly dependent on helium pressure and amount of the gold particles.

Conclusions

This technology was useful to transfection of cells. Optimal transfection conditions were determined to be between 75 and 100 psi of helium pressure, 1.0 to 1.6 μm gold particle size and 0.5 mg of gold particle amount with a loading ratio of 4 μg DNA/mg gold particles.

General significance

These findings will be useful in the design of gene gun device, and bring further improvements to the in vitro and in vivo transfection studies including gene therapy and vaccination.     

Dominance of virus over host factors in cross-species activation of human cytomegalovirus early gene expression

Human cytomegalovirus (HCMV) exhibits a highly restricted host range. In this study, we sought to examine the relative significance of host and viral factors in activating early gene expression of the HCMV UL54 (DNA polymerase) promoter in murine cells. Appropriate activation of the UL54 promoter at early times is essential for viral DNA replication. To study how the HCMV UL54 promoter is activated in murine cells, a transgenesis system based on yeast artificial chromosomes (YACs) was established for HCMV. A 178-kb YAC, containing a subgenomic fragment of HCMV encompassing the majority of the unique long (UL) region, was constructed by homologous recombination in yeast. This HCMV YAC backbone is defective for viral growth and lacks the major immediate-early (IE) gene region, thus permitting the analysis of essential cis-acting sequences when complemented in trans. To quantitatively measure the level of gene expression, we generated HCMV YACs containing a luciferase reporter gene inserted downstream of either the UL54 promoter or, as a control for late gene expression, the UL86 promoter, which directs expression of the major capsid protein. To determine the early gene activation pathway, point mutations were introduced into the inverted repeat 1 (IR1) element of the UL54 promoter of the HCMV YAC. In the transgenesis experiments, HCMV YACs and derivatives generated in yeast were introduced into NIH 3T3 murine cells by polyethylene glycol-mediated fusion. We found that infection of YAC, but not plasmid, transgenic lines with HCMV was sufficient to fully recapitulate the UL54 expression program at early times of infection, indicating the importance of remote regulatory elements in influencing regulation of the UL54 promoter. Moreover, YACs containing a mutant IR1 in the UL54 promoter led to reduced ( approximately 30-fold) reporter gene expression levels, indicating that HCMV major IE gene activation of the UL54 promoter is fully permissive in murine cells. In comparison with HCMV, infection of YAC transgenic NIH 3T3 lines with murine cytomegalovirus (MCMV) resulted in lower (more than one order of magnitude) efficiency in activating UL54 early gene expression. MCMV is therefore not able to fully activate HCMV early gene expression, indicating the significance of virus over host determinants in the cross-species activation of key early gene promoters. Finally, these studies show that YAC transgenesis can be a useful tool in functional analysis of viral proteins and control of gene expression for large viral genomes.     

Increasing the secretion ability of the <Emphasis Type="Italic">kil</Emphasis> gene for recombinant proteins in <Emphasis Type="Italic">Escherichia coli</Emphasis> by using a strong stationary-phase promoter

By using a β-glucanase from Bacillus as a model protein, we investigated whether the secretion competence based on the action of the kil gene can be improved using stronger promoters for the expression of the kil gene. Since the production of extracellular target proteins also depends on the promoter strengths of the target gene, we constructed four expression vectors with all possible combinations of a weak and a strong stationary-phase promoter for the kil gene, and a weak and a strong constitutive promoter, respectively, for the β-glucanase gene. The results of batch fermentations showed that the use of stronger promoters generally decreased the cell density. However, a drastic increase of productivity of the cells to produce and secrete β-glucanase resulted in a significantly higher activity of extracellular β-glucanase. The yield of extracellular β-glucanase can be increased (to 168 %) by using a strong promoter for the β-glucanase alone. However, the increase was much higher when the weak promoter of the kil gene was replaced by a strong stationary-phase promoter (to 221 %). An even higher yield of extracellular β-glucanase was reached when β-glucanase was expressed by a strong promoter in addition indicating a combinatorial effect. This shows that the extracellular production of a recombinant target gene can be optimized by tuning the promoter strengths of components, the kil gene and the target gene.     

Expression of inducible angiosperm promoters in a gymnosperm,Picea glauca (white spruce)

Electrical discharge particle acceleration was used to test the transient expression of numerous inducible angiosperm promoters in a gymnospermPicea glauca (white spruce). Promoter expression was assayed in three different tissues capable ofin vitro regeneration, zygotic embryos, seedlings and embryogenic callus. The promoters tested include the light-inducibleArabidopsis and soybean ribulose-1,5-bisphosphate small subunit promoters and a maize phosphoenolpyruvate carboxylase promoter; a soybean heat-shock-inducible promoter, a soybean auxin inducible promoter and a maize alcohol dehydrogenase promoter. Promoters were cloned into a promoter-less expression vector to form a promoter--glucuronidase-nopaline synthase 3 fusion. A similar construct was made using the cauliflower mosaic virus 35S (CaMV 35S) promoter as a control. All promoters were expressed in white spruce embryos, yet at levels lower than CaMV 35S. In addition, in the embryos the heat-shock and the alcohol dehydrogenase promoters showed inducible expression when given the proper induction stimulus. In seedlings, expression of all promoters was lower than in the embryos and expression was only inducible with the heat-shock promoter in the cotyledons. Of the tissues tested, the expression level of all promoters was lowest in embryogenic callus. Interestingly, the expression of the -glucuronidase gene in embryogenic callus was restricted to the proembryonal head cells regardless of the promoter used. These results clearly demonstrate the use of particle bombardment to test the transient expression of heterologous promoters in organized tissue and the expression of angiosperm promoters in a gymnosperm.     

Expression of foreign genes, GUS and hygromycin resistance, in the halophyte Kosteletzkya virginica in response to bombardment with the Particle Inflow Gun

A ‘Particle Inflow Gun’ was constructed to introducethe glucuronidase (GUS) and hygromycin resistance genes intohalophytic suspension cells of Kosteletzkya virginica. The transientexpression of the GUS gene was associated with the cell cultureconditions, physical parameters during the use of the ParticleInflow Gun, and different promoters coupled to GUS. When theCaMV35S promoter was used, the cells adapted at 85 mM NaCl hada similar gene transfer efficiency to those of the non-salt-adaptedcontrol, while expression was less in the 170 mM and 255 mMNaCl-adapted cells. Both elevating bombardment pressure to 1.65mPa and shortening the distance between the cells and the particleholder from 21 cm to 9 cm enhanced GUS expression in the cellsgrown in four salinity treatments. An ABA-responsive promoterinduced the expression of the GUS gene either with 10^–4M ABA or with salts in the post-bombardment medium in both controland NaCl-adapted cell tines. Stable transgenic callus lineswere isolated by using hygromycin containing medium after bombardingthe suspension cells with the Particle Inflow Gun. The presenceof the GUS gene in stable transformants was confirmed not onlyby histochemical and fluorimetric assays for the GUS activity,but also by Southern hybridization of RT-PCR amplified mANA. Key words: Transgenic hatophyte, Particle Inflow Gun, bombardment, salt tolerance, transformation     

Recombinant polymer-protein fusion: a promising approach towards efficient and targeted gene delivery

BACKGROUND: Synthetic vectors such as polymers have the potential to reduce the safety problems associated with viral vectors; however, their low transfection efficiency limits their clinical utility. To study the critical steps involved in an efficient transgene expression, there is a need for creative approaches that allow a systematic correlation between gene carrier structure and properties necessary for successful gene transfer. Using recombinant techniques a prototype vector comprised of tandem repeating units fused to a targeting moiety was biosynthesized to mediate gene transfer in mammalian cell lines. The carrier was designed to have the structure of (KHKHKHKHKK)6-FGF2 where lysine (K) residues would allow complexation with plasmid DNA, basic fibroblast growth factor (FGF2) to target cells over-expressing FGF2 receptors (FGFR), and histidine (H) residues to facilitate escape from the endosomal compartments. METHODS: The gene carrier was biosynthesized in E. coli, purified using a Ni-NTA column, characterized, complexed with pDNA, and the complexes were used to transfect NIH 3T3, T-47D and COS-1 mammalian cell types known to express FGFR. RESULTS: Results demonstrate the successful cloning and expression of the gene carrier with over 95% purity. The molecular weight of the gene carrier was determined by MALDI-TOF to be 27 402. Amino acid content analysis and Western blot confirmed the expression of the gene carrier in E. coli. The vector was able to condense pDNA, induce cell proliferation in NIH 3T3 fibroblasts, and mediate transgene expression in NIH 3T3, T-47D and COS-1 mammalian cell types. CONCLUSION: Genetic engineering techniques show promise for systematic investigation of structure-activity relationships of non-viral gene delivery vectors.     

Activity assays of nine heterogeneous promoters in neural and other cultured cells

Summary To express high levels of proteins encoded by transfected DNA constructs in a variety of cultured cells, including neuronal cells, the activities of nine different promoters were evaluated usingEscherichia coli β-galactosidase (β-gal) (LacZ) as a reporter gene. These nine promoters were categorized into three distinct groups (high, intermediate, and low expresser), in terms of the levels ofβ-gal expression. An expression vector containing the cytomegalovirus enhancer and the chickβ-actin promoter (high expresser) showed the highest levels of expression, followed by vectors containing the cytomegalovirus promoter/enhancer and the SV40 promoter/enhancer (intermediate expresser). The rest of the promoters (thymidine kinase, adenovirus, murine proliferative sarcoma virus, nerve growth factor receptor, Rous sarcoma and mouse mammary tumor virus, andβ-amyloid precursor protein) expressed low levels ofβ-gal. These results were consistent for eight different cell types. A particularly attractive model is the stem cell, P19; cultures differentiating into progeny consisting predominantly of cholinergic neurons could be readily transfected with expression vectors using liposomes and expressedβ-gal without significant morphologic changes of the differentiated neurons. The systems should be useful for the study of promoters and various expressed proteins, including those involved in axonal transport.     

Major improvements in biolistic transformation of suspension-cultured tobacco cells

Summary Suspension cultures of the NT1 line ofNicotiana tabacum L. were used as a model system to study plant biolistic transformation, because of their uniformity, rapid growth, and ease of handling. The β-glucuronidase gene and the neomycin phosphotransferase genes were used to assay transient and stable transformation. Numerous factors were studied and optimized, such that the frequency of transformation was increased roughly 60-fold for transient transformants and 20-fold for stable transformants. Both biological parameters (the promoter used to drive gene expression, osmotic preconditioning and posbombardment handling of the cells) and physical parameters of the bombardment process (particle acceleration device and accelerator parameters) were tested. The factors that increased transformation rates the most were promoter strength, use of a helium-driven particle accelerator, and osmotic preconditioning of the cells.