Here we describe a triple transgenic mouse system, which combines the tissue specificity of any Cre-transgenic line with the inducibility of the reverse tetracycline transactivator (rtTA)/tetracycline-responsive element (tet-O)-driven transgenes. To ensure reliable rtTA expression in a broad range of cell types, we have targeted the rtTA transgene into the ROSA26 locus. The rtTA expression, however, is conditional to a Cre recombinase-mediated excision of a STOP region from the ROSA26 locus. We demonstrate the utility of this technology through the inducible expression of the vascular endothelial growth factor (VEGF-A) during embryonic development and postnatally in adult mice. Our results of adult induction recapitulate several different hepatic and immune cell pathological phenotypes associated with increased systemic VEGF-A protein levels. This system will be useful for studying genes in which temporal control of expression is necessary for the discovery of the full spectrum of functions. The presented approach abrogates the need to generate tissue-specific rtTA transgenes for tissues where well-characterized Cre lines already exist.
We generated a transgenic mouse line (tau::Cre) by targeting the Cre to the tau locus (Mapt). Based on previous reports on the expression of Tau during development, we expected the Cre recombinase to be expressed in a neuron-specific and pan-neuronal manner. However, intercrosses between the tau::Cre and the Cre-activatable reporter animals resulted in offspring with recombination either restricted to the nervous system or throughout the entire conceptus, indicating expression of Tau early in development. The percentage of neuron-specific excision was dependent on the Cre reporter used representing different Cre target sites in the mouse genome. In spite of the observed variability, our data suggest that the tau::Cre mouse line can be used for pan-neuronal recombination of floxed alleles when it is used with caution.
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