Floxed reporter genes: Flow-cytometric selection of clonable cells expressing high levels of a target gene after tamoxifen-regulated Cre-loxP recombination

In vivo imaging of an inducible oncogenic tumor antigen visualizes tumor progression and predicts CTL tolerance

Visualizing oncogene/tumor Ag expression by noninvasive imaging is of great interest for understanding processes of tumor development and therapy. We established transgenic (Tg) mice conditionally expressing a fusion protein of the SV40 large T Ag and luciferase (TagLuc) that allows monitoring of oncogene/tumor Ag expression by bioluminescent imaging upon Cre recombinase-mediated activation. Independent of Cre-mediated recombination, the TagLuc gene was expressed at low levels in different tissues, probably due to the leakiness of the stop cassette. The level of spontaneous TagLuc expression, detected by bioluminescent imaging, varied between the different Tg lines, depended on the nature of the Tg expression cassette, and correlated with Tag-specific CTL tolerance. Following liver-specific Cre-loxP site-mediated excision of the stop cassette that separated the promoter from the TagLuc fusion gene, hepatocellular carcinoma development was visualized. The ubiquitous low level TagLuc expression caused the failure of transferred effector T cells to reject Tag-expressing tumors rather than causing graft-versus-host disease. This model may be useful to study different levels of tolerance, monitor tumor development at an early stage, and rapidly visualize the efficacy of therapeutic intervention versus potential side effects of low-level Ag expression in normal tissues.

Homogeneity and persistence of transgene expression by omitting antibiotic selection in cell line isolation

Nonuniform, mosaic expression patterns of transgenes are often linked to transcriptional silencing, triggered by epigenetic modifications of the exogenous DNA. Such phenotypes are common phenomena in genetically engineered cells and organisms. They are widely attributed to features of transgenic transcription units distinct from endogenous genes, rendering them particularly susceptible to epigenetic downregulation. Contrary to this assumption we show that the method used for the isolation of stably transfected cells has the most profound impact on transgene expression patterns. Standard antibiotic selection was directly compared to cell sorting for the establishment of stable cells. Only the latter procedure could warrant a high degree of uniformity and stability in gene expression. Marker genes useful for the essential cell sorting step encode mostly fluorescent proteins. However, by combining this approach with site-specific recombination, it can be applied to isolate stable cell lines with the desired expression characteristics for any gene of interest.

Novel enrichment of tumor cell transfectants expressing high levels of type 4 glutathione peroxidase using 7alpha-hydroperoxycholesterol as a selection agent

A novel approach for selecting high expressing cells out of a general population that had been transfected with a construct encoding cytosolic type 4 glutathione peroxidase (GPx4) is reported. The approach is described for GPx4-null COH-BR1 breast tumor cells and is based on use of a highly specific GPx4 substrate, 7alpha-hydroperoxycholesterol (7alpha-OOH), as a selection agent. Cells recovering from a highly toxic dose of liposomal 7alpha-OOH were found to be substantially more resistant to a second 7alpha-OOH challenge than cells recovering from a less toxic dose, but were much less resistant to t-butyl hydroperoxide (t-BuOOH) or H2O2. Several clones isolated from the general transfectant population exhibited variable, relatively low GPx4 activities. However, clones from the 7alpha-OOH-selected population exhibited uniformly high GPx4 activities (each approximately 3-fold higher than that of the starting transfectant population) and elevated steady-state mRNA levels. t-BuOOH could also be used for selecting high GPx4-expressing cells, but consistent recovery from toxic doses was more difficult than with 7alpha-OOH. Compared with conventional "hit or miss" cloning procedures, the 7alpha-OOH approach we describe affords a uniform population of high GPx4-activity cells in a relatively rapid manner. This approach should prove valuable for investigators interested in the peroxide regulatory properties of GPx4, in the context of both cytoprotection and redox signaling.