Transgenic Mice Expressing a Dominant-Negative Mutant Type II Transforming Growth Factor-{beta} Receptor Exhibit Impaired Mammary Development and Enhanced Mammary Tumor Formation

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Transgenic Mice Expressing a Dominant-Negative Mutant Type II Transforming Growth Factor-ß Receptor Exhibit Impaired Mammary Development and Enhanced Mammary Tumor Formation

Agnieszka E. Gorska^*, Roy A. Jensen^*, Yu Shyr^*, Mary E. Aakre^*, Neil A. Bhowmick^* and Harold L. Moses^*

From the Vanderbilt-Ingram Cancer Center^* and the Departments of Cancer Biology, Pathology, and Preventive Medicine, Vanderbilt University Medical Center, Nashville, Tennessee

We have previously shown that expression of a dominant-negativetype II transforming growth factor-ß receptor (DNIIR)in mammary epithelium under control of the MMTV promoter/enhancercauses alveolar hyperplasia and differentiation in virgin mice.Here we show that MMTV-DNIIR female mice have accelerated mammarygland differentiation during early pregnancy with impaired developmentduring late pregnancy and lactation followed by delayed postlactationalinvolution. Mammary tumors, mostly carcinoma in situ, developedspontaneously in the MMTV-DNIIR mice with a long median latency(27.5 months). Crossbreeding to MMTV-transforming growth factor(TGF)- ${alpha}$ mice to obtain mice expressing both transgenes resultedin mammary tumor formation with a much shorter latency moresimilar to those expressing only the MMTV-TGF- ${alpha}$ transgene (<10months median latency). The major difference in mammary tumorsarising in MMTV-TGF- ${alpha}$ compared to bigenic MMTV-DNIIR/MMTV-TGF- ${alpha}$ was the marked suppression of tumor invasion by DNIIR transgeneexpression. Invading carcinoma cells in both MMTV-DNIIR andbigenic animals showed loss of DNIIR transgene expression asdetermined by in situ hybridization. The data indicate thatsignaling from endogenous TGF-ßs not only plays animportant role in normal mammary gland physiology but also canalso suppress the early stage of tumor formation and contributeto tumor invasion once carcinomas have developed.

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				Y. Ueda, S. Wang, N. Dumont, J. Y. Yi, Y. Koh, and C. L. Arteaga Overexpression of HER2 (erbB2) in Human Breast Epithelial Cells Unmasks Transforming Growth Factor {beta}-induced Cell Motility J. Biol. Chem., June 4, 2004; 279(23): 24505 - 24513. [Abstract] [Full Text] [PDF]

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