Tet-On Induction with Doxycycline after Gene Transfer in Mice: Sweetening of Drinking Water is not a Good Idea

Gene transfer to skeletal muscle leads to long-term, stable expression of transferred genes. An exiting development is the use of inducible expression systems. Using the inducible Tet-On system, it has been customary to administer doxycycline in drinking water with added sucrose to ameliorate the bitter taste. During a study aiming at regulating electrotransferred genes through the Tet-On system, we observed excessive drinking behavior among mice. Removal of sugar from the drinking water led to normal drinking behavior and most importantly did not affect the level of gene expression. Based on this study, the practice of adding sucrose to drinking water in doxycycline induction studies should be abandoned.     

Simple and fast method to test the receptor for advanced glycosylated endproducts (RAGE) for its tumor suppressive potential using the Tet-On system

The Tet gene expression system, that allows tightly controlled gene expression in response to doxycycline, was applied to analyze the influence of the receptor for advanced glycosylation endproducts (RAGE) on the growth of 293 cells in semi-solid medium. Establishing a Tet-On gene expression system involves two consecutive stable transfections. Here, we describe an alternative procedure to obtain a Tet-On gene expression system in a single transfection step for the use in tumor biology. The plasmids necessary for the regulated expression of RAGE together with the selectable marker plasmid were cotransfected in a molar ratio of 6:1. After aminoglycoside selection, 29 clones were analyzed using PCR revealing 8 colonies to be double stably transformed. Subsequent Western blot analysis showed inducible expression in 7 cell lines. Applying the one step protocol, the entire Tet-On expression system could be completed in half of the time required for the original two step method. The generated 293 double stable cells were used in the clonogenic assay for the testing of the tumor suppressive potential of RAGE.     

Receptor Research: The Past,the Present and the Outlook

Abstract

The Tet gene expression system, that allows tightly controlled gene expression in response to doxycycline, was applied to analyze the influence of the receptor for advanced glycosylation endproducts (RAGE) on the growth of 293 cells in semi-solid medium. Establishing a Tet-On gene expression system involves two consecutive stable transfections. Here, we describe an alternative procedure to obtain a Tet-On gene expression system in a single transfection step for the use in tumor biology. The plasmids necessary for the regulated expression of RAGE together with the selectable marker plasmid were cotransfected in a molar ratio of 6:1. After aminoglycoside selection, 29 clones were analyzed using PCR revealing 8 colonies to be double stably transformed. Subsequent Western blot analysis showed inducible expression in 7 cell lines. Applying the one step protocol, the entire Tet-On expression system could be completed in half of the time required for the original two step method. The generated 293 double stable cells were used in the clonogenic assay for the testing of the tumor suppressive potential of RAGE.     

Comparison of single regulated lentiviral vectors with rtTA expression driven by an autoregulatory loop or a constitutive promoter

Regulated expression of a therapeutic gene is crucial for safe and efficacious gene therapy. Many inducible regulatory systems use a constitutive promoter to express a regulatory protein, such as rtTA in the Tet-On system, which may restrict their use because of cytotoxicity and immunogenicity. Autoregulatory expression of rtTA provides extremely low levels of rtTA when transgene expression is off, with rapid transgene induction upon addition of doxycycline. Lentiviral vectors efficiently transfer genes to dividing and non-dividing cells with long-term gene expression both in vitro and in vivo. We compared regulatory function in a single lentiviral vector where rtTA was either expressed from a constitutive promoter or placed in an autoregulatory loop. Autoregulatory expression of rtTA was superior to constitutive promoter expression, resulting in higher viral titers, undetectable levels of both rtTA and transgene expression in the absence of doxycycline, improved induction kinetics and increased induction levels in all cells tested. We further expanded the utility of the autoregulatory vector by using an improved rtTA variant with an increased sensitivity to doxycycline. This lentiviral vector with doxycycline-regulated transgene expression may be useful for gene therapy applications and in experimental settings where strict temporal expression of a transgene is required.     

Constitutive activity of endogenous receptors by inducible Gq overexpression

We have developed an inducible cell line that transiently expresses Gq alpha G protein subunits in response to doxycycline. HEK293/Tet-On pBI(Gq alpha) cells worked consistently, achieving high and tightly regulated levels of Gq alpha overexpression (38-fold increase compared with non-induced cells). We investigated the possibility of using an inducible system to increase the proportion of constitutively active endogenously expressed G protein-coupled receptors (GPCRs) by overexpressing Gq alpha. Not only did we observe an increase in basal activity following doxycycline treatment, but also increased intrinsic activity of agonists such as carbachol, endothelin, lysophosphatidic acid (LPA), and bradykinin. Furthermore, carbachol and LPA potency increased following Gq alpha overexpression, as did the intrinsic activity of the partial agonist pilocarpine, observations indicative of constitutive activity. An inducible cell line, transiently expressing G proteins, can therefore be employed to induce constitutive activity of endogenously expressed GPCRs. This model system could be used to identify clinically important inverse agonists.     

A versatile system for site-specific enzymatic biotinylation and regulated expression of proteins in cultured mammalian cells

We have developed a system for producing biotinylated recombinant proteins in mammalian cells. The expression construct consists of an inducible tetracycline response element (TRE) that drives expression of a bicistronic cassette comprising a biotin acceptor peptide (BioTag) fused to either terminus of the target protein, the gene for Escherichia coli biotin ligase (BirA), and an intervening internal ribosome entry site (IRES). By either transient or stable transfection of Chinese hamster ovary (CHO) Tet-On cells, we successfully expressed, detected, and immobilized biotinylated human Itch, a pleiotropic multi-domain ubiquitin-protein ligase, as well as Gla-RTK, a putative vitamin K-dependent receptor tyrosine kinase. The biotinylation of recombinant Itch in transiently transfected CHO Tet-On cells required biotin supplementation and coexpression of BirA, occurred quantitatively and specifically on the lysine residue of the BioTag, and enabled detection of Itch by Western blot in as little as 10ng of total lysate protein. Stably selected clones were rapidly pre-screened for doxycycline (dox)-inducible BirA expression by ELISA, and subsequently screened for dox-inducible expression of biotinylated Itch. Biotinylated Gla-RTK was detectable in as little as 5ng of total lysate protein from transiently transfected CHO Tet-On cells, and exhibited pronounced tyrosine phosphorylation. In stable clones however, constitutive phosphorylation was prevented by reducing the expression level of Gla-RTK through the titration of dox. These results demonstrate the utility of this system for the expression of 'difficult' proteins, particularly those that are cytotoxic or those that may require lower expression levels to ensure appropriate post-translational modification.     

Role of c-Src in human MCF7 breast cancer cell tumorigenesis

To study the role of c-Src in breast cancer tumorigenesis, we generated a cell line derived from MCF7 carrying an inducible dominant negative c-Src (c-SrcDN: K295M/Y527F) under tetracycline control (Tet-On system). c-SrcDN expression caused phenotypic changes, relocation of c-Src, Fak, and paxillin, and loss of correct actin fiber assembly. These alterations were coupled to increased Fak-Tyr(397) autophosphorylation and to inhibition of Fak-Tyr(925), p130(CAS), and paxillin phosphorylation. An increased association of total Src with Fak and a decreased interaction of p130(CAS) and p85-PI3K with Fak were also observed. SrcDN inhibited cell attachment, spreading, and migration. Serum and EGF-induced stimulation of cell proliferation and Akt phosphorylation were also significantly reduced by SrcDN, whereas p27(Kip1) expression was increased. Consistently, silencing c-Src expression by siRNA in MCF7 cells significantly reduced cell migration, attachment, spreading and proliferation. Inoculation of MCF7 cells carrying inducible SrcDN to nude mice generated tumors. However, doxycycline administration to mice significantly reduced tumorigenesis, and when doxycycline treatment was installed after tumor development, a significant tumor regression was observed. In both situations, inhibition of tumorigenesis was associated with decreased Ki67 staining and increased apoptosis in tumors. These data undoubtedly demonstrate the relevance of the Src/Fak complex in breast cancer tumorigenesis.     

Optimization of the Tet-On system for inducible expression of RAGE.

We have optimized a two-plasmid Tet-On system, the regulatory plasmid and the response plasmid, to produce tightly controlled inducible expression of the gene RAGE in cell-culture models. Two sets of plasmids were constructed: set 1 (universal; for broad range of cell types) and set 2 (neuron specific). For the response plasmid, the gene RAGE was cloned in pIRES2-EGFP plasmid (Clontech) and the CMV promoter replaced with TREtight (modified seven copies of Tet-operon fused with CMVm promoter). For the regulatory plasmid, rtTA (reverse tetracycline transactivator) was placed under either the CMV promoter or the cell-specific promoter neuronal specific enolase. Both plasmids have the mammalian selection marker neomycine; the EGFP reporter gene is only in the response plasmid and IRES is between the gene and EGFP. Following induction with doxycycline, cells expressing RAGE showed neomycine resistance and green fluorescence (EGFP). Our system has been tested in two different cell lines and showed negligible basal leakiness, high induction of the gene RAGE (142-fold), dose-dependent response to doxycycline, and strict cell-type specificity. This system is highly suitable for cell-specific expression of any gene of interest in primary cultures and mixed cell populations.     

A novel adenoviral vector carrying an all-in-one Tet-On system with an autoregulatory loop for tight,inducible transgene expression

Background

One of the most commonly used vectors for gene therapy is the adenoviral vector; its ability to tightly regulate transgene expression is critical for optimizing therapeutic outcomes. The tetracycline-regulated system (especially the Tet-On system) for gene expression is one of the most valuable tools for controlling gene expression. The major problem of an adenoviral vector carrying a Tet-On system is suboptimal regulation of transgene expression.

Results

We constructed a single adenoviral vector carrying in its E1 region a novel “all-in-one” Tet-On system with an autoregulatory loop. This system had improved Dox-inducible gene expression in terms of low basal expression, high induced expression and high responsiveness to Dox. To our knowledge, this is the first reported adenovirus-based, all-in-one Tet-On system with an autoregulatory loop inserted into a single region of adenoviral genome. This system was further tested by inducible expression of soluble tumor necrosis factor-related apoptosis-inducing ligand (sTRAIL). The adenovirus that expressed soluble TRAIL under the control of this novel Tet-On system showed tumor-derived cells inhibitory activity in SW480 cells only under induced conditions.

Conclusions

Our novel, single adenoviral vector carrying in its E1 region an all-in-one Tet-On system with an autoregulatory loop displayed tight regulation of transgene expression in vitro. This system has great potential for a variety of applications, including gene therapy and the study of gene function.     

Gene silencing in Escherichia coli using antisense RNAs expressed from doxycycline‐inducible vectors

Here, we report on the construction of doxycycline (tetracycline analogue)‐inducible vectors that express antisense RNAs in Escherichia coli. Using these vectors, the expression of genes of interest can be silenced conditionally. The expression of antisense RNAs from the vectors was more tightly regulated than the previously constructed isopropyl‐β‐D‐galactopyranoside‐inducible vectors. Furthermore, expression levels of antisense RNAs were enhanced by combining the doxycycline‐inducible promoter with the T7 promoter‐T7 RNA polymerase system; the T7 RNA polymerase gene, under control of the doxycycline‐inducible promoter, was integrated into the lacZ locus of the genome without leaving any antibiotic marker. These vectors are useful for investigating gene functions or altering cell phenotypes for biotechnological and industrial applications.

Significance and Impact of the Study

A gene silencing method using antisense RNAs in Escherichia coli is described, which facilitates the investigation of bacterial gene function. In particular, the method is suitable for comprehensive analyses or phenotypic analyses of genes essential for growth. Here, we describe expansion of vector variations for expressing antisense RNAs, allowing choice of a vector appropriate for the target genes or experimental purpose.     

Spatial-temporal targeting of lung-specific mesenchyme by a <Emphasis Type="Italic">Tbx4</Emphasis>enhancer

Background

Reciprocal interactions between lung mesenchymal and epithelial cells play essential roles in lung organogenesis and homeostasis. Although the molecular markers and related animal models that target lung epithelial cells are relatively well studied, molecular markers of lung mesenchymal cells and the genetic tools to target and/or manipulate gene expression in a lung mesenchyme-specific manner are not available, which becomes a critical barrier to the study of lung mesenchymal biology and the related pulmonary diseases.

Results

We have identified a mouse Tbx4 gene enhancer that contains conserved DNA sequences across many vertebrate species with lung or lung-like gas exchange organ. We then generate a mouse line to express rtTA/LacZ under the control of the Tbx4 lung enhancer, and therefore a Tet-On inducible transgenic system to target lung mesenchymal cells at different developmental stages. By combining a Tbx4-rtTA driven Tet-On inducible Cre expression mouse line with a Cre reporter mouse line, the spatial-temporal patterns of Tbx4 lung enhancer targeted lung mesenchymal cells were defined. Pulmonary endothelial cells and vascular smooth muscle cells were targeted by the Tbx4-rtTA driver line prior to E11.5 and E15.5, respectively, while other subtypes of lung mesenchymal cells including airway smooth muscle cells, fibroblasts, pericytes could be targeted during the entire developmental stage.

Conclusions

Developmental lung mesenchymal cells can be specifically marked by Tbx4 lung enhancer activity. With our newly created Tbx4 lung enhancer-driven Tet-On inducible system, lung mesenchymal cells can be specifically and differentially targeted in vivo for the first time by controlling the doxycycline induction time window. This novel system provides a unique tool to study lung mesenchymal cell lineages and gene functions in lung mesenchymal development, injury repair, and regeneration in mice.

     

Constitutive activity of human angiotensin II type-1 receptors by Gq overexpression

We have developed an inducible HEK293/Tet-On cell line that transiently expresses both FLAG-tagged human angiotensin II type-I receptors (FLAG-hAT(1)R) and G(q)alpha G protein subunits in response to doxycycline. High and tightly regulated levels of FLAG-hAT(1)R (740+/-57 fmol/mg protein) and G(q)alpha (36-fold increase compared with non-induced cells) overexpression were consistently achieved. We investigated the possibility of using an inducible system to increase the proportion of constitutively active wild-type FLAG-hAT(1)Rs by overexpressing G(q)alpha. Following doxycycline treatment, we observed no significant change in the apparent binding affinity or potency (coupling efficiency) of angiotensin II, though significant increases in the intrinsic activity of several partial agonists were observed, indicative of constitutive activity. DUP753 (10 microM), a suggested inverse agonist, did not inhibit the enhanced level of basal (agonist-independent) activity. The data suggest that the resting equilibrium of hAT(1) receptors between the inactive (R) and active (R*) forms is predominantly weighted towards the inactive conformation.     

Ectopic expression of 10-formyltetrahydrofolate dehydrogenase in A549 cells induces G1 cell cycle arrest and apoptosis

We have recently shown that transient expression of 10-formyltetrahydrofolate dehydrogenase (FDH) strongly inhibits proliferation of several cancer cell lines and ultimately results in cell death. In the present studies using Tet-On system, we have generated a stable A549 lung carcinoma cell line capable of inducible FDH expression. Using this system, we were able to express FDH at different levels depending on concentration of the inducer, doxycycline, and we have observed that inhibition of proliferation depends on FDH intracellular levels. We have further shown that induction of FDH expression results in initiation of apoptosis beginning 24 h post-induction. Apoptotic cells revealed cleavage of poly-(ADP-ribose) polymerase and general caspase inhibitor zVAD-fmk protected cells against FDH-induced apoptosis. FDH-expressing cells showed accumulation of cells in G(0)-G(1) phase and a sharp decrease of cells in S phase. Accumulation of intracellular FDH was followed by accumulation of the tumor suppressor protein p53 and its downstream target p21. These results indicate that FDH antiproliferative effects on A549 cells include both G(1) cell cycle arrest and caspase-dependent apoptosis.     

受强力霉素调节的自杀基因表达载体系统的构建和在乳腺癌细胞株(MCF-7)的表达

自杀基因治疗是恶性肿瘤基因治疗中最常用的途径之一,以递转录病毒载体-pRevTRE为基础进行载体构建,首先使用PCR技术对单纯疱疹病毒胸苷激酶基因（HSVtk)进行扩增,将HSVtk基因插入到pRe-vTRE,形成重组载体pRevTRE/HSVtk,用磷酸钙共沉淀法,经过两轮转染,分别将pRevTRE/HSVtk和pRevTet-On质粒导入乳腺癌细胞株（MCF-7）经过潮霉素B（HygromycinB)和G418筛选,建立了一株稳定的受四环素衍生物-强力霉素（Doxycycline,Dox)调控,表达HSVtk基因产物的人乳腺癌细胞株MCF/TRE/tk/Tet-On,HSVtk基因表达产物可以将无毒性的药物前体Ganciclovir(GCV)转变成一种有毒的代谢产物,从而杀死乳腺癌细胞株（MCF-7）,达到基因治疗的目的。     

Induced expression of expanded CGG RNA causes mitochondrial dysfunction in vivo

Fragile X-associated tremor/ataxia syndrome (FXTAS) is a late-onset neurodegenerative disorder affecting carriers of premutation forms of the FMR1 gene, resulting in a progressive development of tremor, ataxia and neuropsychological problems. The disease is caused by an expanded CGG repeat in the FMR1 gene, leading to an RNA gain-of-function toxicity mechanism. In order to study the pathogenesis of FXTAS, new inducible transgenic mouse models have been developed that expresses either 11CGGs or 90CGGs at the RNA level under control of a Tet-On promoter. When bred to an hnRNP-rtTA driver line, doxycycline (dox) induced expression of the transgene could be found in almost all tissues. Dox exposure resulted in loss of weight and death within 5 d for the 90CGG RNA expressing mice. Immunohistochemical examination of tissues of these mice revealed steatosis and apoptosis in the liver. Decreased expression of GPX1 and increased expression of cytochrome C is found. These effects were not seen in mice expressing a normal sized 11CGG repeat. In conclusion, we were able to show in vivo that expression of an expanded CGG-repeat rather than overexpression of a normal CGG-repeat causes pathology. In addition, we have shown that expanded CGG RNA expression can cause mitochondrial dysfunction by regulating expression levels of several markers. Although FTXAS patients do not display liver abnormalities, our findings contribute to understanding of the molecular mechanisms underlying toxicity of CGG repeat RNA expression in an animal model. In addition, the dox inducible mouse lines offer new opportunities to study therapeutic interventions for FXTAS.     

4-Epidoxycycline: an alternative to doxycycline to control gene expression in conditional mouse models

Since the pioneering work by Gossen and Bujard in 1992 demonstrating the usefulness of the Escherichia coli derived tet resistance operon for regulating gene expression a large collection of doxycycline-controlled transgenic mice has been established. Gene switching in eukaryotic tissue culture cells or mice requires administration of tetracycline, anhydrotetracycline or doxycycline to efficiently inactivate the transactivator protein tTA (TET-OFF system) or alternatively to activate the reverse transactivator protein rtTA (TET-ON system). However, the antibiotic activity of doxycycline can create an imbalance of the intestinal flora, resulting in diarrhoea and in a smaller number of animals in colitis. Previous studies reported that 4-epidoxycycline (4-ED), a hepatic metabolite of doxycycline, does not function as an antibiotic in mice. This gave us the idea that 4-ED might be useful for controlling gene expression in mice without the unwanted antibiotic side effect. To study the applicability of 4-ED for control of gene expression we used cell lines expressing the oncogene HER2 under control of tTA (TET-OFF) as well as rtTA (TET-ON). 4-ED and doxycycline were similarly efficient in switching on or -off HER2 expression. In vivo we used a conditional mouse model that allows switching off HER2 in tumor tissue. We show that (i) doxycycline, 7.5mg/ml in drinking water (used as a positive control), (ii) 4-ED, 7.5mg/ml in drinking water, (iii) 4-ED, 10mg/kg body weight, s.c., and (iv) anhydrotetracycline, 10mg/kg, s.c. (used as a second positive control), were similarly efficient. Using mice with tumor volumes of 1.6cm(3) all four schedules led to a tumor remission of more than 95% within 7 days. In conclusion, 4-ED is similarly efficient as doxycycline to control gene expression in vitro and in mice. Since 4-ED lacks the antibiotic activity of doxycycline it may help to avoid adverse side effects and selection of resistant bacteria.