We have developed an advanced method for conditional gene expression in mice that integrates the Cre-mediated and tetracycline-dependent expression systems. An rtTA gene, preceded by a loxP-flanked STOP sequence, was inserted into the ROSA26 locus to create a R26STOPrtTA mouse strain. When the STOP sequence is excised by Cre-mediated recombination, the rtTA is expressed in the Cre-expressing cells and all of their derivatives. Therefore, cell type-, tissue-, or lineage-specific expression of rtTA is achieved by the use of an appropriate Cre transgenic strain. In mice also carrying a target gene under the control of the tetracycline response element, inducible expression of the target gene is temporally regulated by administration of doxycycline. Our results demonstrate that this universal system is uniquely suited for spatiotemporal and lineage-specific gene expression in an inducible fashion. Gene expression can be manipulated in specific cell types and lineages with a flexibility that is difficult to achieve with conventional methods.conditonal gene expression ͉ Cre ͉ ROSA26 locus ͉ rtTA D evelopment of advanced transgenic systems for conditional gene expression is essential for studying development and modeling human diseases in mice. Two powerful systems that have been used extensively are the Cre-loxP system, which allows genes to be permanently activated or inactivated in specific lineages (1), and the tetracycline-dependent system, which permits temporal as well as cell type-or tissue-specific control of transgene expression (2). The basic strategy for the Cre-loxP system is to delete the DNA sequence flanked by two loxP sites, thereby achieving conditional gene activation and inactivation. Manipulating the expression of Cre in a specific place and at a specific time enables conditional regulation. In the tetracyclinedependent system, three essential elements are required. First is the transcription factor tTA or rtTA, which can be expressed in a spatial specific manner. Second, the tetracycline response element (TRE) is used to control the expression of target genes. The presence of the third element, doxycycline (Dox), which can be administrated in a temporal specific fashion, activates target gene expression. We have developed a mouse strain, R26STOPrtTA, which combines features of these two systems and permits greater flexibility of conditional gene expression in the mouse. An rtTA gene, preceded by a loxP-flanked STOP sequence, was inserted into the ubiquitously active ROSA26 locus. When R26STOPrtTA is crossed with Cre-expressing strains, the STOP sequence is excised, yielding the R26rtTA allele, which expresses rtTA in the Cre-expressing cells and all of their descendants. Thus, the cell type, tissue, or lineage specificity of rtTA expression is dictated by selection of an appropriate Cre transgenic strain. In mice also carrying a target gene under the control of TRE, expression of the target gene is temporally regulated by administration of Dox. Using this approach, we have successfully achieved tr...
