Wang X J, Liefer K M, Tsai S, O'Malley B W, Roop D R
Department of Cell Biology, Baylor College of Medicine, Houston, TX 77030, USA.
Proc Natl Acad Sci U S A. 1999 Jul 20;96(15):8483-8. doi: 10.1073/pnas.96.15.8483.
Previous attempts to establish transgenic mouse models to study the functions of transforming growth factor beta1 (TGFbeta1) in the skin revealed controversial roles for TGFbeta1 in epidermal growth (inhibition vs. stimulation) and resulted in neonatal lethality in one instance. To establish a viable transgenic model for studying functions of TGFbeta1 in the skin, we have now developed transgenic mice, which allow focal induction of the TGFbeta1 transgene in the epidermis at different expression levels and at different developmental stages. This system, termed "gene-switch," consists of two transgenic lines. The mouse loricrin vector targets the GLVPc transactivator (a fusion molecule of the truncated progesterone receptor and the GAL4 DNA binding domain), and a thymidine kinase promoter drives the TGFbeta1 target gene with GAL4 binding sites upstream of the promoter. These two transgenic lines were mated to generate bigenic mice, and TGFbeta1 transgene expression was controlled by topical application of an antiprogestin. On epidermal-specific induction of the TGFbeta1 transgene, the BrdUrd labeling index in the transgenic epidermis decreased 6-fold compared with controls. Induction of the TGFbeta1 transgene expression also caused epidermal resistance to phorbol 12-myristate 13-acetate-induced hyperplasia, with a reduction in both epidermal thickness and BrdUrd labeling compared with those in controls. In addition, TGFbeta1 transgene expression induced an increase in angiogenesis in the dermis. Given that the TGFbeta1 transgene can affect both the epidermis and dermis, this transgenic model will provide a useful tool for studying roles of TGFbeta1 in wound-healing and skin carcinogenesis in the future.
以往曾尝试建立转基因小鼠模型来研究转化生长因子β1(TGFβ1)在皮肤中的功能,结果显示TGFβ1在表皮生长中所起的作用存在争议(抑制与刺激),并且在一个实例中导致了新生小鼠死亡。为了建立一个可行的转基因模型来研究TGFβ1在皮肤中的功能,我们现已培育出转基因小鼠,其能够在不同的表达水平和不同的发育阶段在表皮中局部诱导TGFβ1转基因。这个系统被称为“基因开关”,由两个转基因品系组成。小鼠loricrin载体靶向GLVPc反式激活因子(截短的孕酮受体与GAL4 DNA结合结构域的融合分子),并且胸苷激酶启动子驱动带有位于启动子上游的GAL4结合位点的TGFβ1靶基因。将这两个转基因品系进行杂交以产生双转基因小鼠,并且通过局部应用抗孕激素来控制TGFβ1转基因的表达。在TGFβ1转基因的表皮特异性诱导后,转基因表皮中的BrdUrd标记指数与对照相比下降了6倍。TGFβ1转基因表达的诱导还导致表皮对佛波醇12 - 肉豆蔻酸酯13 - 乙酸酯诱导的增生产生抗性,与对照相比,表皮厚度和BrdUrd标记均降低。此外,TGFβ1转基因表达诱导真皮中血管生成增加。鉴于TGFβ1转基因能够影响表皮和真皮两者,这个转基因模型将为未来研究TGFβ1在伤口愈合和皮肤癌发生中的作用提供一个有用的工具。