Conditional gene expression in the respiratory epithelium of the mouse

Transgenic mouse models mediating conditional temporal and spatial regulation of gene expression to the respiratory epithelium were developed utilizing the reverse tetracycline transactivator (rtTA) expressed under the control of SP-C and CCSP promoters. Luciferase activity was detected in the lungs of fetal and adult double transgenic mice but was not detected in other tissues or in single transgenic mice. In adult mice, maximal luciferase activity was detected 16h after the administration of doxycycline in the drinking water, or 2h after the injection of doxycycline. Activation of the transgene was observed after the administration of doxycycline in food pellets. After prolonged exposure to doxycycline, luciferase activity decreased slowly following removal of doxycycline, suggesting the importance of tissue pools which maintained expression of the transgene. In SP-C-rtTA mice, exposure of the pregnant dam to doxycycline induced luciferase activity in fetal lung tissue as early as E10.5. Luciferase activity was maintained in the lung tissue of pups during the period of lactation when the mother received doxycycline in the drinking water. In the CCSP-rtTA mice, luciferase was not detected in the absence of doxycycline. In the SP-C-rtTA mice, luciferase activity was detected in the absence of doxycycline but was enhanced approximately 10-fold by administration of drugs. The SP-C-rtTA and CCSP-rtTA activator mice control the expression of transgenes in the developing and mature respiratory epithelium, and will be useful for the study of gene function in the lung.     

Adeno-cosmid cloning vectors for regulated gene expression

Background

Adenovectors are widely used for efficient delivery of genes into a variety of cell types and organisms. However, the construction of the desired vector/genes combination, especially if it involves the cloning of several gene cassettes, can be laborious due to the large size of these vectors. New methods are needed to simplify the construction of complex combinations of gene cassettes into adenovectors.

Methods

Using simple cloning techniques and exploiting the λ‐phage packaging system, we devised efficient methods for the ‘selection’ of the desired vector constructs. Thus we generated a series of cosmids containing the adeno helper dependent (HD) backbone in which we inserted cis‐ and trans‐acting tetracycline (tet) elements for the regulation of any gene of interest. One of these cosmids has been used to produce an HD adenovirus carrying a tetracycline‐regulated gene expressing β‐galactosidase.

Results

We have demonstrated that the adeno‐cosmid system allows rapid and efficient cloning of genes of interest in helper dependent vectors, and described a prototype ‘ready‐to‐use’ vector in which any gene of interest can be easily expressed under the control of the tet system. The HD viruses produced with this novel methodology can be grown at high titers, can be easily separated from the helper adenovirus, and allow delivery and regulated gene expression in a variety of tissues.

Conclusions

Exploiting the λ‐packaging system, complex adeno constructs can be generated with a simple and reproducible protocol, which allows selection of the desired size construct, counterselecting for the frequently observed intramolecular recombinations and deletions. Copyright © 2002 John Wiley & Sons, Ltd.

     

Generation of a tightly regulated doxycycline-inducible model for studying mouse intestinal biology

To develop a sensitive and inducible system to study intestinal biology, we generated a transgenic mouse model expressing the reverse tetracycline transactivator rtTA2-M2 under control of the 12.4 kb murine Villin promoter. The newly generated Villin-rtTA2-M2 mice were then bred with the previously developed tetO-HIST1H2BJ/GFP model to assess inducibility and tissue-specificity. Expression of the histone H2B-GFP fusion protein was observed exclusively upon doxycycline induction and was uniformly distributed throughout the intestinal epithelium. The Villin-rtTA2-M2 was also found to drive transgene expression in the developing mouse intestine. Furthermore, we could detect transgene expression in the proximal tubules of the kidney and in a population of alleged gastric progenitor cells. By administering different concentrations of doxycycline, we show that the Villin-rtTA2-M2 system drives transgene expression in a dosage-dependent fashion. Thus, we have generated a novel doxycycline-inducible mouse model, providing a valuable tool to study the effect of different gene dosages on intestinal physiology and pathology.     

Inducible and neuron-specific gene expression in the adult mouse brain with the rtTA2S-M2 system

To achieve inducible and reversible gene expression in the adult mouse brain, we exploited an improved version of the tetracycline-controlled transactivator-based system (rtTA2(S)-M2, rtTA2 hereafter) and combined it with the forebrain-specific CaMKIIalpha promoter. Several independent lines of transgenic mice carrying the CaMKIIalpha promoter-rtTA2 gene were generated and examined for anatomical profile, doxycycline (dox)-dependence, time course, and reversibility of gene expression using several lacZ reporter lines. In two independent rtTA2-expressing lines, dox-treatment in the diet induced lacZ reporter expression in neurons of several forebrain structures including cortex, striatum, hippocampus, amygdala, and olfactory bulb. Gene expression was dose-dependent and was fully reversible. Further, a similar pattern of expression was obtained in three independent reporter lines, indicating the consistency of gene expression. Transgene expression could also be activated in the developing brain (P0) by dox-treatment of gestating females. These new rtTA2-expressing mice allowing inducible and reversible gene expression in the adult or developing forebrain represent useful models for future genetic studies of brain functions.     

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.     

大鼠成长期左心室基因表达谱的变化

为观察大鼠发育成熟过程中心脏生长与其基因表达谱变化的关系 ,应用超声心动术检测 8、10、12周龄Wistar大鼠的心脏结构和功能指标 ,应用cDNA基因芯片技术观察心脏基因表达水平的变化。大鼠从 8周龄生长至12周龄 ,体重增加约 45 7% ( 2 87± 13 gvs 197± 10g) ,前 2周和后 2周增加幅度相近。心脏左心室重量和室壁厚度分别增加约 2 7 7% ( 0 60± 0 0 3 gvs 0 47± 0 0 2 g)和 2 3 6% ( 2 0 4± 0 0 4mmvs 1 65± 0 13mm) ,前 2周增加幅度明显大于后 2周。基因表达谱的改变涉及细胞结构、代谢、氧化应激及信号转导等多方面的基因。 10周龄和 8周龄大鼠比较 ,变化的基因多数上调 ;12周龄和 10周龄大鼠比较 ,基因表达谱基本又返转至 8周龄水平。结果表明 ,大鼠在成长期的 4周内 ( 8- 12周龄 ) ,左心室基因表达谱发生的变化适应生理性心肌生长需要     

Long-term, noninvasive imaging of regulated gene expression in living mice

We describe here an approach for monitoring regulated gene expression by noninvasive imaging in living mice. We have utilized the tetracycline inducible system to simultaneously coregulate the expression of two genes encoding the firefly luciferase and the Cre recombinase, respectively. Results from our model system demonstrate that luciferase can be used as a noninvasive imaging marker for the regulated expression of a second gene in living mice. The integration of noninvasive imaging and inducible gene expression into current approaches of functional genomics should greatly advance our capabilities of carrying out highly controlled long-term studies of gene function in individual mice.     

Tet-On systems for doxycycline-inducible gene expression

The Tet-On advanced inducible gene expression system in vitro is known for genarating robust expression of the desired gene in target cells. The system offers many advantages over other inducible mammalian gene expression systems, such as high specificity, high inducibility, and high absolute expression levels. In this study, the Tet-On advanced inducible gene expression system was applied to induce the expression of the trophoblast cell-surface antigen 2 (Trop-2) gene in vitro and explore the biological functions of Trop-2. 293/pTet-On-Advanced cell lines were generated, and a recombinant vector containing the Trop-2 gene was constructed and transfected into stable cell lines to improve Trop-2 protein expression. In the presence of doxycycline (DOX), the proliferation assay, transwell assay, and wound healing assay were performed to analyze the efficacy of Trop-2. The results showed that the Tet-On advanced inducible gene expression system was established successfully in the cell line 293, Trop-2 protein level in cells was significantly increased, and Trop-2 could enhance growth, migration, and aggression in the cell line 293. This study suggests that the Tet-On advanced inducible gene expression system can induce the expression of interest genes specifically and artificially in vitro and provides a viable and convenient platform for the study of gene function.     

Codon optimization of bacterial luciferase (lux) for expression in mammalian cells

Expression of the bacterial luciferase (lux) system in mammalian cells would culminate in a new generation of bioreporters for in vivo monitoring and diagnostics technology. Past efforts to express bacterial luciferase in mammalian cells have resulted in only modest gains due in part to low overall expression of the bacterial genes. To optimize expression, we have designed and synthesized codon-optimized versions of the luxA and luxB genes from Photorhabdus luminsecens. To evaluate these genes in vivo, stable HEK293 cell lines were created harboring wild type luxA and luxB (WTA/WTB), codon-optimized luxA and wild type luxB (COA/WTB), and codon-optimized versions of both luxA and luxB genes (COA/COB). Although mRNA levels within these clones remained approximately equal, LuxA protein levels increased significantly after codon optimization. On average, bioluminescence levels were increased by more than six-fold [5×10⁵ vs 2.9×10⁶ relative light units (RLU)/mg total protein] with the codon-optimized luxA and wild type luxB. Bioluminescence was further enhanced upon expression of both optimized genes (2.7×10⁷ RLU/mg total protein). These results show promise toward the potential development of an autonomous light generating lux reporter system in mammalian cells     

Tetracycline-regulated gene expression switch in Xenopus laevis

Xenopus is a well-characterized model system for the investigation of biological processes at the molecular, cellular, and developmental level. The successful application of a rapid and reliable method for transgenic approaches in Xenopus has led to renewed interest in this system. We have explored the applicability of tetracycline-regulated gene expression, first described by Gossen and Bujard in 1992, to the Xenopus system. By optimizing conditions, tetracycline repressor induced expression of a luciferase reporter gene was readily and reproducibly achieved in both the Xenopus oocyte and developing embryo. This high level of expression was effectively abrogated by addition of low levels of tetracycline. The significance of this newly defined system for studies of chromatin dynamics and developmental processes is discussed.     

Tetracycline-inducible gene expression in nuclear transfer embryos derived from porcine fetal fibroblasts transformed with retrovirus vectors

A critical problem of transgenic livestock production is uncontrollable constitutive expression of the foreign gene, which usually results in serious physiological disturbances in transgenic animals. One of the best solutions for this problem may be use of controllable gene expression system. In this study, using retrovirus vectors designed to express the enhanced green fluorescent protein (EGFP) gene under the control of the tetracycline-inducible promoter, we examined whether the expression of the transgene could be controllable in fibroblast cells and nuclear transfer (NT) embryos of porcine. Transformed fibroblast cells were cultured in medium supplemented with or without doxycycline (a tetracycline analog) for 48 hr, and the induction efficiency was measured by comparing EGFP gene expression using epifluorescence microscopy and Western and Northern blot analyses. After the addition of doxycycline, EGFP expression increased up to 17-fold. The nuclei of transformed fibroblast cells were transferred into enucleated oocytes. Fluorescence emission data revealed strong EGFP gene expression in embryos cultured with doxycycline, but little or no expression in the absence of the antibiotic. Our results demonstrate the successful regulation of transgene expression in porcine nuclear transfer embryos, and support the application of an inducible expression system in transgenic pig production to solve the inherent problems of side-effects due to constitutive expression of the transgene.     

Generation of mice that conditionally express the activation domain of Notch2

The Notch pathway is an intercellular signaling mechanism frequently used for controlling cell fate during organogenesis. There are four structurally related Notch receptors in mice and humans, and Notch1 and Notch2 are essential genes. In this report we describe the construction of a transgenic mouse strain that expresses the Notch2 intracellular domain in response to cell lineage specific expression of Cre recombinase. This approach bypasses the requirement for ligand‐ receptor interaction and allows the direct determination of the consequences of Notch2 activation in vivo. Exogenous expression of the Notch2 intracellular domain resulted in the developmental arrest of secondary heart field derived cardiomyocytes during the transition from immature α‐Smooth Muscle Actin expressing cells to mature α‐Actinin positive cardiomyocytes. In contrast, a cell nonautonomous mesenchymal expansion was observed in semilunar valves. This new conditionally expressed allele of Notch2 can be used in studies by investigators interested in the effects of Notch2 activation in vivo. genesis, 47:573–578, 2009. Published 2009 Wiley‐Liss, Inc.     

Transformation of oat and inheritance of bar gene expression

Fertile transgenic plants of oat (Avena sativa L. var. Melys) were produced following microprojectile bombardment of primary embryogenic calli from immature embryos with two plasmids containing the bar gene or the β-glucuronidase (uidA) gene, after selection with glufosinate ammonium. Eleven plants were regenerated from phosphinothricin resistant callus, with three of the eleven plants containing either intact or rearranged copies. No plants co-transformed with the non-selected uidA gene were detected. Stable transmission and expression of the bar gene in the T₁ inbred progenies occurred in a Mendelian manner in one line, which contained an intact bar gene, and in all six T₂ lines tested from this transformant. This revised version was published online in June 2006 with corrections to the Cover Date.     

Temporally regulated expression of a yeast invertase in potato tubers allows dissection of the complex metabolic phenotype obtained following its constitutive expression

The constitutive cytosolic expression of a yeast (Saccharomyces cerevisiae) invertase within potato (Solanum tuberosum) tubers has previously been documented to produce a dramatic metabolic phenotype in which glycolysis, respiration and amino acid synthesis are markedly enhanced at the cost of starch synthesis. These transgenic lines were further characterised by a massive cycle of sucrose degradation and resynthesis via sucrose-phosphate synthase. We have recently developed a B33 patatin driven alc gene construct allowing tight chemical control of gene expression following supply of acetaldehyde with minimal pleiotropic effects of the inducing agent on metabolism. This construct was used for chemical induction of the yeast invertase gene after 10-weeks growth to dissect the complex metabolic phenotype obtained after constitute expression. Inducible expression led to increased invertase activity within 24 h in well-defined areas within growing tubers. Although the sucrose levels were reduced, there was no effect on the levels of starch whilst levels of many amino acids decreased. Labelling experiments revealed that these lines exhibited increased rates of sucrose cycling, whereas rates of glycolysis and of starch synthesis were not substantially changed. From these results we conclude that sucrose cycling is stimulated in response to a short-term increase in the rate of sucrose mobilisation, providing evidence for a role of sucrose cycling as a buffering capacity that regulates the net rate of sucrose usage. In contrast, the dramatic increase in hexose-phosphate levels and the switch from starch synthesis to respiration seen on the constitutive expression of the invertase was not observed in the inducible lines, suggesting that this is the result of cumulative pleiotropic effects that occurred when the transgene was expressed throughout development.