The importance of stromal-epithelial interactions in mammary gland development and tumorigenesis is well established. These interactions likely involve autocrine and paracrine action of multiple growth factors, including members of the TGF-beta family, which are expressed in both stroma and epithelium. We have previously demonstrated that expression of a dominant-negative type II TGF-beta receptor construct (DNIIR) in mammary stroma using a metallothionein (MT) promoter results in increased lateral branching. Current evidence indicates that DNIIR causes only partial blockage of TGF-beta signaling. To accomplish complete knock-out of the type II TGF-beta receptor gene (Tgfbr2) in mammary stromal cells we have crossed FSP1-Cre mice with the Tgfbr2(floxE2/floxE2) mice. FSP1 (fibroblast-specific protein-I) is expressed in stromal fibroblasts. As shown under Preliminary Studies, these mice have a phenotype different from that observed with partial abrogation of TGF-beta signaling in stromal cells in the MT-DNIIR mice. With complete knock-out of Tgfbr2 in stromal cells there was loss of mammary fat cells with a markedly hypercellular stroma and decreased ductal branching with hypoplastic epithelial cells. Animals with FSP1-Cre and heterozygous floxed Tgfbr2 [Tgfbr2(floxE2/wt)] making them haploinsufficient for Tgfbr2 in stromal cells have normal mammary gland development, but defective regression following lactation. Thus, we have a unique model for studying the role of TGF-beta signaling in stromal cells on mammary gland development and tumorigenesis. Based on this information, we have formulated the following hypotheses: (1) TGF-beta signaling in stroma is essential for normal development of the mammary gland and plays a role in the invasive and metastatic potential of carcinoma cells. (2) Stromal haploinsufficiency of Tgfbr2 leads to incomplete regression following lactation and alters the invasion and metastatic capabilities of mammary tumors induced by coexpressed oncogenes.
The Specific Aims are proposed to test these hypotheses are: 1. Characterization of Cre expression pattern, recombination and phenotype of FSP1-Cre:Tgfbr2(floxE2/floxE2) mice. 2. Characterization of Cre expression pattern, recombination and phenotype of mice haploinsufficient for Tgfbr2 in stroma, FSP1-Cre:Tgfbr2(floxE2/wt) mice. 3. Characterization of Tgfbr2 null stromal cells and determination of their effect on invasion and metastasis of carcinoma cells.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA102162-02
Application #
6764260
Study Section
Pathology B Study Section (PTHB)
Program Officer
Mohla, Suresh
Project Start
2003-07-01
Project End
2008-06-30
Budget Start
2004-07-01
Budget End
2005-06-30
Support Year
2
Fiscal Year
2004
Total Cost
$438,104
Indirect Cost
Name
Vanderbilt University Medical Center
Department
Anatomy/Cell Biology
Type
Schools of Medicine
DUNS #
004413456
City
Nashville
State
TN
Country
United States
Zip Code
37212
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Hover, Laura D; Young, Christian D; Bhola, Neil E et al. (2015) Small molecule inhibitor of the bone morphogenetic protein pathway DMH1 reduces ovarian cancer cell growth. Cancer Lett 368:79-87
Pickup, Michael W; Hover, Laura D; Polikowsky, Eleanor R et al. (2015) BMPR2 loss in fibroblasts promotes mammary carcinoma metastasis via increased inflammation. Mol Oncol 9:179-91
Ryzhov, Sergey V; Pickup, Michael W; Chytil, Anna et al. (2014) Role of TGF-? signaling in generation of CD39+CD73+ myeloid cells in tumors. J Immunol 193:3155-64
Novitskiy, Sergey V; Forrester, Elizabeth; Pickup, Michael W et al. (2014) Attenuated transforming growth factor beta signaling promotes metastasis in a model of HER2 mammary carcinogenesis. Breast Cancer Res 16:425
Jovanovi?, Bojana; Beeler, J Scott; Pickup, Michael W et al. (2014) Transforming growth factor beta receptor type III is a tumor promoter in mesenchymal-stem like triple negative breast cancer. Breast Cancer Res 16:R69
Pickup, Michael; Novitskiy, Sergey; Moses, Harold L (2013) The roles of TGF? in the tumour microenvironment. Nat Rev Cancer 13:788-99

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