Tight control of gene expression in mammalian cells by tetracycline-responsive promoters.
15 Jun 1992-Proceedings of the National Academy of Sciences of the United States of America (National Academy of Sciences)-Vol. 89, Iss: 12, pp 5547-5551
TL;DR: Control elements of the tetracycline-resistance operon encoded in Tn10 of Escherichia coli have been utilized to establish a highly efficient regulatory system in mammalian cells that is suitable for creation of "on/off" situations for such genes in a reversible way.
Abstract: Control elements of the tetracycline-resistance operon encoded in Tn10 of Escherichia coli have been utilized to establish a highly efficient regulatory system in mammalian cells. By fusing the tet repressor with the activating domain of virion protein 16 of herpes simplex virus, a tetracycline-controlled transactivator (tTA) was generated that is constitutively expressed in HeLa cells. This transactivator stimulates transcription from a minimal promoter sequence derived from the human cytomegalovirus promoter IE combined with tet operator sequences. Upon integration of a luciferase gene controlled by a tTA-dependent promoter into a tTA-producing HeLa cell line, high levels of luciferase expression were monitored. These activities are sensitive to tetracycline. Depending on the concentration of the antibiotic in the culture medium (0-1 microgram/ml), the luciferase activity can be regulated over up to five orders of magnitude. Thus, the system not only allows differential control of the activity of an individual gene in mammalian cells but also is suitable for creation of "on/off" situations for such genes in a reversible way.
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TL;DR: A role is established for Oct-3/4 as a master regulator of pluripotency that controls lineage commitment and the sophistication of critical transcriptional regulators is illustrated and the consequent importance of quantitative analyses are illustrated.
Abstract: Cell fate during development is defined by transcription factors that act as molecular switches to activate or repress specific gene expression programmes. The POU transcription factor Oct-3/4 (encoded by Pou5f1) is a candidate regulator in pluripotent and germline cells and is essential for the initial formation of a pluripotent founder cell population in the mammalian embryo. Here we use conditional expression and repression in embryonic stem (ES) cells to determine requirements for Oct-3/4 in the maintenance of developmental potency. Although transcriptional determination has usually been considered as a binary on-off control system, we found that the precise level of Oct-3/4 governs three distinct fates of ES cells. A less than twofold increase in expression causes differentiation into primitive endoderm and mesoderm. In contrast, repression of Oct-3/4 induces loss of pluripotency and dedifferentiation to trophectoderm. Thus a critical amount of Oct-3/4 is required to sustain stem-cell self-renewal, and up- or downregulation induce divergent developmental programmes. Our findings establish a role for Oct-3/4 as a master regulator of pluripotency that controls lineage commitment and illustrate the sophistication of critical transcriptional regulators and the consequent importance of quantitative analyses.
3,745 citations
Cites methods from "Tight control of gene expression in..."
...We introduced expression constructs for the tetracycline (Tc)-regulated transactivator tTA (ref...
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TL;DR: The results establish that the CRISPR system can be used as a modular and flexible DNA-binding platform for the recruitment of proteins to a target DNA sequence, revealing the potential of CRISpri as a general tool for the precise regulation of gene expression in eukaryotic cells.
3,165 citations
TL;DR: Adding doxycycline to HeLa cells that constitutively synthesized the transactivator and that contained an appropriate, stably integrated reporter unit rapidly induced gene expression more than a thousandfold.
Abstract: A transcriptional transactivator was developed that fuses the VP16 activation domain with a mutant Tet repressor from Escherichia coli. This transactivator requires certain tetracycline (Tc) derivatives for specific DNA binding. Thus, addition of doxycycline to HeLa cells that constitutively synthesized the transactivator and that contained an appropriate, stably integrated reporter unit rapidly induced gene expression more than a thousandfold. The specificity of the Tet repressor-operator-effector interaction and the pharmacological characteristics of Tc's make this regulatory system well suited for the control of gene activities in vivo, such as in transgenic animals and possibly in gene therapy.
2,645 citations
TL;DR: It is shown that the transcription factor Snail, which is expressed by fibroblasts and some E-cadherin-negative epithelial tumour cell lines, binds to three E-boxes present in the human E-CADherin promoter and represses transcription of E- cadhersin.
Abstract: The adhesion protein E-cadherin plays a central part in the process of epithelial morphogenesis. Expression of this protein is downregulated during the acquisition of metastatic potential at late stages of epithelial tumour progression. There is evidence for a transcriptional blockage of E-cadherin gene expression in this process. Here we show that the transcription factor Snail, which is expressed by fibroblasts and some E-cadherin-negative epithelial tumour cell lines, binds to three E-boxes present in the human E-cadherin promoter and represses transcription of E-cadherin. Inhibition of Snail function in epithelial cancer cell lines lacking E-cadherin protein restores the expression of the E-cadherin gene.
2,534 citations
Cites methods from "Tight control of gene expression in..."
...The full coding region of the mmSna cDNA was tagged with the haemagglutinin epitope and cloned into pIRESneo (Clontech), pCDNA3 or pUHD10-3 (ref...
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TL;DR: Human cell lines that expressed hTR mutated in the template region generated the predicted mutant telomerase activity, and cells transfected with an antisense hTR lost telomeric DNA and began to die after 23 to 26 doublings.
Abstract: Eukaryotic chromosomes are capped with repetitive telomere sequences that protect the ends from damage and rearrangements. Telomere repeats are synthesized by telomerase, a ribonucleic acid (RNA)-protein complex. Here, the cloning of the RNA component of human telomerase, termed hTR, is described. The template region of hTR encompasses 11 nucleotides (5'-CUAACCCUAAC) complementary to the human telomere sequence (TTAGGG)n. Germline tissues and tumor cell lines expressed more hTR than normal somatic cells and tissues, which have no detectable telomerase activity. Human cell lines that expressed hTR mutated in the template region generated the predicted mutant telomerase activity. HeLa cells transfected with an antisense hTR lost telomeric DNA and began to die after 23 to 26 doublings. Thus, human telomerase is a critical enzyme for the long-term proliferation of immortal tumor cells.
2,305 citations
References
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TL;DR: This assay is very reproducible and rapid with the dye binding process virtually complete in approximately 2 min with good color stability for 1 hr with little or no interference from cations such as sodium or potassium nor from carbohydrates such as sucrose.
225,085 citations
TL;DR: Assaying the expression of luciferase provides a rapid and inexpensive method for monitoring promoter activity and is estimated to be from 30- to 1,000-fold more sensitive than assaying chloramphenicol acetyltransferase expression.
Abstract: The nucleotide sequence of the luciferase gene from the firefly Photinus pyralis was determined from the analysis of cDNA and genomic clones. The gene contains six introns, all less than 60 bases in length. The 5' end of the luciferase mRNA was determined by both S1 nuclease analysis and primer extension. Although the luciferase cDNA clone lacked the six N-terminal codons of the open reading frame, we were able to reconstruct the equivalent of a full-length cDNA using the genomic clone as a source of the missing 5' sequence. The full-length, intronless luciferase gene was inserted into mammalian expression vectors and introduced into monkey (CV-1) cells in which enzymatically active firefly luciferase was transiently expressed. In addition, cell lines stably expressing firefly luciferase were isolated. Deleting a portion of the 5'-untranslated region of the luciferase gene removed an upstream initiation (AUG) codon and resulted in a twofold increase in the level of luciferase expression. The ability of the full-length luciferase gene to activate cryptic or enhancerless promoters was also greatly reduced or eliminated by this 5' deletion. Assaying the expression of luciferase provides a rapid and inexpensive method for monitoring promoter activity. Depending on the instrumentation employed to detect luciferase activity, we estimate this assay to be from 30- to 1,000-fold more sensitive than assaying chloramphenicol acetyltransferase expression.
3,074 citations
Journal Article•
TL;DR: A bacterial gene conferring resistance to neomycin-kanamycin antibiotics has been inserted into SV40 hybrid plasmid vectors and introduced into cultured mammalian cells by DNA transfusion and it is shown that cell transformation to G418 resistance is an efficient means for cotransformation of nonselected genes.
Abstract: A bacterial gene (neo) conferring resistance to neomycin-kanamycin antibiotics has been inserted into SV40 hybrid plasmid vectors and introduced into cultured mammalian cells by DNA transfusion. Whereas normal cells are killed by the antibiotic G418, those that acquire and express neo continue to grow in the presence of G418. In the course of the selection, neo DNA becomes associated with high molecular weight cellular DNA and is retained even when cells are grown in the absence of G418 for extended periods. Since neo provides a marker for dominant selections, cell transformation to G418 resistance is an efficient means for cotransformation of nonselected genes.
2,555 citations
TL;DR: The aim in developing this micropreparation procedure was to easily and rapidly extract DNA-binding proteins from small numbers of cells, and it gives an excellent yield, comparable to that of the large scale Dignam protocol with minimal proteolysis.
Abstract: We have developed a simple and rapid method for preparing DNA-binding protein extracts from mammalian cells. The protocol is derived from the large scale procedure of Dignam et al. (1) and utilizes hypotonic lysis followed by high salt extraction of nuclei. The technique described by Dignam has several drawbacks, including the need for large numbers of cells and lengthy incubation and dialysis steps. It is labor-intensive and precludes preparation of multiple samples simultaneously. Our aim in developing this micropreparation procedure was to easily and rapidly extract DNA-binding proteins from small numbers of cells. Frequently, the quantity of cells available for extraction of DNA-binding proteins is limiting, as in analysis of clinical samples, of multiple clones of transfected cells, or of COS cell pools transiently transfected with a cDNA expression library. Ideally, such a technique would allow processing of many samples simultaneously and quickly on the benchtop. The method described in this report accomplishes these goals. In addition, it gives an excellent yield of DNA-binding proteins, comparable to that of the large scale Dignam protocol with minimal proteolysis. We typically start with between 5X10 and 10 cells. All centrifugations of less than 30 seconds are carried out in a room temperature microfuge; between steps, the samples are placed on ice. Adherent cells are scraped into 1.5 ml of cold phosphatebuffered saline (PBS); non-adherent cells are pelleted and resuspended in 1.5 ml cold PBS. The cell suspension is then transferred to a microfuge tube. Cells are pelleted for 10 seconds and resuspended in 400 yX cold Buffer A (10 mM HEPES-KOH pH 7.9 at 4°C, 1.5 mm MgCl2, 10 mM KC1, 0.5 mM dithiothreitol, 0.2 mM PMSF) by flicking the tube. The cells are allowed to swell on ice for 10 minutes, and then vortexed for 10 seconds. Samples are centrifuged for 10 seconds, and the supernatant fraction is discarded. The pellet is resuspended in 20—100 y\ (according to starting number of cells) of cold Buffer C (20 mM HEPES-KOH pH 7.9, 25% glycerol, 420 mM NaCl, 1.5 mM MgCl2, 0.2 mM EDTA, 0.5 mM dithiothreitol, 0.2 mM PMSF) and incubated on ice for 20 min for high-salt extraction. Cellular debris is removed by centrifugation for 2 minutes at 4C and the supernatant fraction (containing DNA binding proteins) is stored at -70°C. The yield is 50 to 75 /tg protein per 10 cells.
2,368 citations
TL;DR: The HCMV enhancer, which seems to have little cell type or species preference, is severalfold more active than the SV40 enhancers, a property that makes it a useful component of eukaryotic expression vectors.
1,336 citations