Expression of highly controllable genes in insect cells using a modified tetracycline-regulated gene expression system

A modified tetracycline-responsive expression system (TRES) for use in insect cells was developed. The TRES contains two components: one encodes a tetracycline-controllable transactivator (tTA) and the other contains a tet operator DNA sequence to drive the luciferase gene. Our results show that the human cytomegalovirus (CMV) promoter, an essential part for strong tTA expression in mammalian system, was not functional in insect cells. Thus further modifications were required. Functional tTA was efficiently expressed in Sf9, Sf21, and TN368 cells by the p10 promoter of Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) in plasmid form with virus co-infection. An increase of up to 258-fold of luciferase activity was detected in these cells when both components in modified TRES were co-transfected. In order to further simplify the experiment, tTA, which is driven by the p10 promoter, was inserted into AcMNPV. Luciferase activity was also strongly stimulated by the infection of this tTA expression-recombinant virus with the transfection of a plasmid containing the second TRES component expressing luciferase. The luciferase expressions in these systems, either in plasmids or the tTA gene in virus and luciferase in plasmid, were significantly suppressed by tetracycline. The time course kinetics of tetracycline action to the TRES were further studied. Within a time span of 50 h, the luciferase activities could be fully suppressed or activated, respectively, corresponding to the addition or removal of tetracycline. These experiments have established a well-regulated gene expression system for further broad applications of molecular biological studies in insect cells.     

An episomal vector for stable tetracycline-regulated gene expression.

The recently introduced tetracycline (Tc)-regulatable eukaryotic gene expression system based on the Escherichia coli Tn 10 tetracycline operon has proven to be a powerful tool for controlled expression of a variety of genes in vitro as well as in vivo . Control elements of this expression system are contained in two separate plasmid vectors. The tTA vector encodes a transactivator protein and the tetP vector contains a responsive operator-promoter element (tetP) that controls gene expression depending on tTA binding. Establishment of cell lines expressing a gene of interest under tetP control requires two subsequent rounds of transfection and clonal selection after each transfection. Here we describe a modification of this system in which the tetP element is placed in an episomal EBNA-based plasmid that can be stably maintained in primate but not in rodent cells. Using HeLa and human melanoma cells, we show that upon transient or stable transfection a reporter gene is expressed in a Tc-regulated manner similar to the original system. Thus, this expression system combines the advantages of episomal vectors, such as high efficiency of transfection and time-efficient selection of mass cultures, with tight control of gene expression provided by the Tc-regulatable system.     

A Model System for Studying Postnatal Myogenesis with Tetracycline-Responsive, Genetically Engineered Clonal Myoblasts in Vitro and in Vivo

The aim of this work was to introduce a tetracycline-responsive (Tet-off) gene expression system into myoblasts in order to regulate a reporter gene not only in vitro but also particularly in muscles implanted with these engineered myoblasts. Mouse myoblasts from a long-term culture (i28 cells) were transfected initially to generate and characterize two stable master clones expressing tetracycline-responsive transactivator protein tTA. Like parental i28 myoblasts, these clones differentiated well in vitro. The second step introduced the firefly (Photinus pyralis) luciferase gene into one of the stable tTA clones producing double transfectants expressing luciferase in the absence of tetracycline. Addition of tetracycline (1 microg ml(-1)) resulted in at least 100-fold decreases in luciferase activity within 8 h in both growing and differentiating myoblast cultures. Enzyme activity was rapidly restored after tetracycline was removed (8 h). After successful implantation of these myoblasts into damaged mouse muscles, luciferase expression in the matured progeny cells could be regulated by oral application of doxycycline for at least 1 month. The tetracycline-responsive master clones are potentially powerful tools for studying the function of various genes in postnatal myogenesis.     

Homogeneous tetracycline‐regulatable gene expression in mammalian fibroblasts

The expression of transfected genes in mammalian cells is rapidly repressed by epigenetic mechanisms such that, within a matter of weeks, only a fraction of the cells in most clonal populations still exhibit detectable expression. This problem can become prohibitive when one wants to express two ectopically introduced genes, as is necessary to establish cell lines that harbor genes regulated by the tetracycline‐controlled transactivators. We describe an approach to establish Chinese hamster ovary (CHO) cell lines that stably induce a tet‐responsive reporter gene in all cells of a transfected clonal population. Screening of more than 100 colonies resulting from a standard co‐transfection of the tetracycline transactivator (tTA) with a green fluorescent protein (GFP) reporter plasmid failed to identify a single colony that could induce GFP in more than 20% of cells. The presence of chromatin insulator sequences, previously shown to protect some transfected genes from epigenetic silencing, moderately improved stability but was not sufficient to produce homogeneous transformants. However, when cell lines were first established in which selection could be maintained either for the expression of tTA activity (co‐transfection with a tTA‐responsive selectable marker) or the presence of tTA mRNA (bicistronic message encoding a selectable marker), these cell lines could be subsequently transfected with the GFP reporter construct, and nearly 10% of the resulting colonies exhibited stable homogeneous tet‐responsive GFP expression in 100% of the expanded clonal cell population. J. Cell. Biochem. 76:280–289, 1999. © 1999 Wiley‐Liss, Inc.     

Use of the human EF-1alpha promoter for expression can significantly increase success in establishing stable cell lines with consistent expression: a study using the tetracycline-inducible system in human cancer cells

Establishing cells with an exogenously introduced gene of interest under the inducible control of tetracycline (Tc) initially requires clonal cell lines stably expressing the tetracycline activator (tTA or rtTA). The originally described plasmid vectors expressing tTA/rtTA are driven by the cytomegalovirus (CMV) immediate early (IE) promoter-enhancer, known for its robust activity in a wide spectrum of cell types. While many reports testify to the utility and efficacy of this construct, instances of inexplicable failure to establish cell lines having inducible expression of the cDNA under study are encountered. Spontaneous extinction of CMV promoter activity in cells has been observed in a temporal and cell type-dependent manner. This could be a contributing factor in the failure to establish Tc-responsive cell lines. We here report that a change of the expression cassette to the human elongation factor-1alpha (EF-1alpha) promoter has permitted successful establishment of several inducible cell lines from diverse human tumor tissue origins. We interpret these results to imply that extinction of rtTA (or tTA) expression might be a significant factor in the lack of success in establishing Tc-inducible cell lines. Moreover, the present findings have general relevance to experiments requiring the use of stable cell lines.     

Use of a recombinant parvovirus to facilitate screening for human melanoma cell clones expressing tetracycline-responsive transactivators.

The tetracycline regulatory (TET) system provides a useful means of controlling foreign gene expression in mammalian cells. Exploiting this system in cultured cells requires the prior isolation, from the cells of interest, of transfectant clones expressing the necessary TET transactivator, tTA, or reverse transactivator, rtTA. We describe a simple screening procedure for identifying transfectant clones expressing a properly regulated transactivator, and the application of this method to isolating clones of human melanoma cells expressing either tTA or rtTA. Clones in multi-well plates are transduced by exposure to a recombinant parvovirus containing a luciferase reporter, under control of a promoter responsive to the TET system transactivators. Transactivation of reporter expression in the presence or absence of doxycycline (DOXY) is determined after one to two days, using a rapid luciferase assay. Screening is easier and more reproducible with this transduction method than with conventional transient transfection of analogous reporter plasmids. Clones of two human melanoma cell lines showing >100-200-fold transactivation after transfection with either tTA or rtTA were readily identified using this method.     

Homogeneous tetracycline-regulatable gene expression in mammalian fibroblasts

The expression of transfected genes in mammalian cells is rapidly repressed by epigenetic mechanisms such that, within a matter of weeks, only a fraction of the cells in most clonal populations still exhibit detectable expression. This problem can become prohibitive when one wants to express two ectopically introduced genes, as is necessary to establish cell lines that harbor genes regulated by the tetracycline-controlled transactivators. We describe an approach to establish Chinese hamster ovary (CHO) cell lines that stably induce a tet-responsive reporter gene in all cells of a transfected clonal population. Screening of more than 100 colonies resulting from a standard co-transfection of the tetracycline transactivator (tTA) with a green fluorescent protein (GFP) reporter plasmid failed to identify a single colony that could induce GFP in more than 20% of cells. The presence of chromatin insulator sequences, previously shown to protect some transfected genes from epigenetic silencing, moderately improved stability but was not sufficient to produce homogeneous transformants. However, when cell lines were first established in which selection could be maintained either for the expression of tTA activity (co-transfection with a tTA-responsive selectable marker) or the presence of tTA mRNA (bicistronic message encoding a selectable marker), these cell lines could be subsequently transfected with the GFP reporter construct, and nearly 10% of the resulting colonies exhibited stable homogeneous tet-responsive GFP expression in 100% of the expanded clonal cell population.     

Conditional Transgene Expression in Endothelial Cells

The ability to tightly control transgene expression in vivo provides an opportunity to determine the role of certain gene products at different times during development and/or in response to different stimuli. We have characterized and evaluated a tetracycline-responsive endothelial-specific binary system during mouse development, by engineering several transgenic lines which drive the expression of a tetracycline- controlled transactivator (tTA) under the control of either the Tek or Tie promoters (driver lines). We have also generated a responder line which carries multiple copies of the tTA DNA binding element (tetos) upstream of a reporter gene coding for a nuclear targeted -galactosidase (responder lines). No expression of the target transgene was detected in mice homozygous for the reporter transgene. On mating the driver lines with the responder line, expression of -galactosidase from the reporter transgene was detected within the endothelium. Responder transgene expression was repressed rapidly upon addition of doxycycline to the drinking water. Importantly, this repression was reversible upon withdrawal of the drug. This approach should be useful to deliver the expression of potentially toxic gene products or rescue embryonic mutations that affect either the endothelial lineage or production of growth factors which are secreted systemically.     

Variability of Inducible Expression across the Hematopoietic System of Tetracycline Transactivator Transgenic Mice

The tetracycline (tet)-regulated expression system allows for the inducible overexpression of protein-coding genes, or inducible gene knockdown based on expression of short hairpin RNAs (shRNAs). The system is widely used in mice, however it requires robust expression of a tet transactivator protein (tTA or rtTA) in the cell type of interest. Here we used an in vivo tet-regulated fluorescent reporter approach to characterise inducible gene/shRNA expression across a range of hematopoietic cell types of several commonly used transgenic tet transactivator mouse strains. We find that even in strains where the tet transactivator is expressed from a nominally ubiquitous promoter, the efficiency of tet-regulated expression can be highly variable between hematopoietic lineages and between differentiation stages within a lineage. In some cases tet-regulated reporter expression differs markedly between cells within a discrete, immunophenotypically defined population, suggesting mosaic transactivator expression. A recently developed CAG-rtTA3 transgenic mouse displays intense and efficient reporter expression in most blood cell types, establishing this strain as a highly effective tool for probing hematopoietic development and disease. These findings have important implications for interpreting tet-regulated hematopoietic phenotypes in mice, and identify mouse strains that provide optimal tet-regulated expression in particular hematopoietic progenitor cell types and mature blood lineages.     

时空表达可控的转基因动物模型调控体系的研究

目的在血管内皮细胞建立时空表达可控的转基因动物模型调控体系。方法培育两个配套的转基因动物品系,利用组织专一性启动子确保转基因表达的空间专一性,利用四环素诱导系统对转基因表达在时间上实施调控。结果将血管内皮细胞特异性表达的VE cadherin基因启动子与人工融合的转录因子tTA基因连接,建立转基因小鼠品系VE cadherin:tTA;将tetoperon的启动子与myrAkt1连接,建立转基因小鼠品系TET:myrAkt1。两系鼠杂交的子代,筛选的阳性纯合子,能可控性地在血管内皮细胞特异性表达目的基因Akt1PKB。结论利用VE cadherin基因启动子和tet off诱导表达系统,可以达到在时间上和空间上都能人为控制目的基因在血管内皮细胞上特异性表达的目的。     

Leishmania chagasi: a tetracycline-inducible cell line driven by T7 RNA polymerase

Trypanosomatid protozoa lack consensus promoters for RNA polymerase (RNAP) II. However, the artificial insertion of the T7 promoter (P(T7)) and the tetracycline repressor into Trypanosoma brucei cell lines expressing T7RNAP allows P(T7)-driven gene expression to be tetracycline-inducible. These cell lines provide a molecular tool to address protein function by several recombinant approaches. We describe here the development of an analogous Leishmania chagasi cell line bearing the genes for exogenous T7RNAP and the tetracycline repressor inserted in the multi-gene alpha-tubulin locus. A plasmid construct with P(T7) and the tetracycline operator upstream of a reporter gene, when introduced into this cell line as episomal plasmids or chromosomal insertion into the non-coding strand of an 18SrRNA gene, resulted in tetracycline-inducible expression of the reporter as much as 16- and 150-fold, respectively. The reporter was under a much tighter control when chromosomally inserted than extra-chromosomally born. Furthermore, P(T7) augmented the reporter's expression 2-fold more in comparison to P(T7)-less constructs. This cell line is the first Leishmania spp. that allows the exogenous T7RNAP-driven gene expression to be tetracycline-inducible; and may provide a useful tool for addressing protein function by manipulating expression levels of Leishmania endogenous genes.     

pBT, a novel vector for tetracycline-regulated yeast three-hybrid assay

A novel yeast three-hybrid (Y3H) vector pBT was developed, which contains a tetracycline (Tet)-sensitive transactivator (tTA) expression unit and a Tet-responsive element (TRE)-driven 3rd protein expression unit within a single plasmid. To optimize tTA expression levels, several promoters for driving tTA expression were tested, and the weakest human cytomegalovirus (CMV) promoter showed the best induction/background ratio. Culturing yeast cells in different doses of doxycycline (Dox) resulted in a dose-dependent reduction of 3rd protein expression. Screening a cDNA library with pBT successfully identified functional Y3H interactions that could be easily discriminated from Y2H interactions by culturing on Dox-containing plates. At 5.0 μg/ml Dox, Y3H interactions were undetectable by the colony-forming assay under high-stringency selection conditions or by a lacZ colorimetric assay. A low-copy-number version of the pBT vector, pBT(L), completely eliminated the leakage activity of pBT found under low-stringency condition. In conclusion, the pBT system is a useful tool for studying the structures of higher-order protein complexes.     

New methods for tightly regulated gene expression and highly efficient chromosomal integration of cloned genes for Methanosarcina species

A highly efficient method for chromosomal integration of cloned DNA into Methanosarcina spp. was developed utilizing the site-specific recombination system from the Streptomyces phage φC31. Host strains expressing the φC31 integrase gene and carrying an appropriate recombination site can be transformed with non-replicating plasmids carrying the complementary recombination site at efficiencies similar to those obtained with self-replicating vectors. We have also constructed a series of hybrid promoters that combine the highly expressed M. barkeri PmcrB promoter with binding sites for the tetracycline-responsive, bacterial TetR protein. These promoters are tightly regulated by the presence or absence of tetracycline in strains that express the tetR gene. The hybrid promoters can be used in genetic experiments to test gene essentiality by placing a gene of interest under their control. Thus, growth of strains with tetR-regulated essential genes becomes tetracycline-dependent. A series of plasmid vectors that utilize the site-specific recombination system for construction of reporter gene fusions and for tetracycline regulated expression of cloned genes are reported. These vectors were used to test the efficiency of translation at a variety of start codons. Fusions using an ATG start site were the most active, whereas those using GTG and TTG were approximately one half or one fourth as active, respectively. The CTG fusion was 95% less active than the ATG fusion.     

A one-step approach to obtain cell clones expressing tetracycline-responsive transactivators

Despite the wide application of the tetracycline-regulated gene expression system, several drawbacks in establishing the system in in vitro-cultured cells have been described. Most of the problems are related to obtaining a reliable tetracycline-regulated cell clone, which often results in arduous labor. We describe here a new approach to facilitate the screening and selection of such cell clones. We have constructed a tetracycline-responsive plasmid that harbors an antibiotic resistance gene fused to the enhanced green fluorescent protein (EGFP) gene and the luciferase gene, both under the control of a bidirectional promoter. We demonstrate that the selection of tetracycline-regulated clones is highly simplified by using this plasmid. Only clones expressing the system in a functional manner are able to survive under antibiotic selection. In addition, a quick characterization of the responsiveness of the clones is possible by monitoring GFP expression in vivo.