In conjunction with our studies on mammary tumorigenesis in feral and inbred mice, our efforts have focused upon understanding the cellular basis of malignant progression in the mammary gland. Taking the point of view that mammary carcinomas arise as clonal populations of transformed tissue-specific stem cells and their differentiating progeny, we have initiated a long-term project aimed at elucidating the cellular, molecular, and genetic events underlying mammary epithelial cell growth, regeneration, and functional development. The reproductive capacity of the mammary epithelial stem cell is reduced coincident with the number of symmetric divisions it must perform. In a study of FVB/N mice with the transgene, WAP-TGFb1, we discovered that mammary epithelial stem cells were prematurely aged due to ectopic expression of TGF-b1. To test whether premature aging of mammary epithelial stem cells would have an impact on susceptibility or resistance to mammary cancer, female littermates from FVB/N X WAP-TGF-b1 mating were injected with mouse mammary tumor virus (MMTV) at 8-10 weeks of age. A total of 44 females were inoculated, maintained as breeders and observed for tumor development for up to 18 months. Only one mammary tumor appeared in 17 TGF-b1 females while 15 were collected from 29 wild type sisters. Premalignant mammary epithelial cells in infected glands were identified by transplantation of single cell (1x105) suspensions into nulliparous hosts and testing for hyperplastic outgrowth. Although the number of positive takes was significantly reduced with TGF-b1 cells, both MMTV-infected TGF-b1 and wild type cells produced hyperplastic outgrowths suggesting that premalignant transformation was achieved in each group. The results suggest a positive correlation between the procreative life-span of mammary epithelial stem cells and mammary cancer risk.. . An in vivo transplantation system was used to evaluate the developmental capacities of specific mouse mammary epithelial cell populations. Specifically, mouse mammary epithelial cells with distinctly limited developmental potentials were identified using this procedure. Two distinct epithelial cell progenitors have been identified by experiments designed to determine whether basal lobular and ductal phenotypes could develop independently under conditions imposed by a limiting dilution. Mammary gland biologists have long assumed that differentiated secretory epithelial cells undergo programmed cell death at the end of lactation and that the alveolar compartment is reconstituted from undifferentiated precursor cells in subsequent pregnancies. It is generally agreed that the remodeled gland in a parous animal resembles that of a mature virgin on the morphological level. However, a number of physiological differences have been noted in comparing the responses of mammary epithelia from nulliparous versus parous females to hormonal stimulation and carcinogenic agents. Here, we present genetic evidence that an involuted mammary gland is fundamentally different from a virgin gland despite its close resemblance in the morphology. This difference results from the formation of a new mammary epithelial cell population that originates from differentiating cells during pregnancy. In contrast to the majority of fully committed alveolar cells, this epithelial population does not undergo cell death during involution and remodeling following a lactation period. We show that these cells can function as alveolar progenitors in subsequent pregnancies, and they can play an important role in functional adaptation in genetically engineered mice, which exhibit a reversion of a lactation-deficient phenotype in multiparous animals. In transplantation studies, this parity-induced epithelial population shows the capacity for self-renewal and contributes significantly to the reconstitution of the resulting mammary outgrowth (i.e. ductal morphogenesis and lobulogenesis). We propose that this parity-induced population contributes importantly to the biological differences between the mammary glands of parous and nulliparous females.

Agency
National Institute of Health (NIH)
Institute
Division of Basic Sciences - NCI (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC010021-07
Application #
6762561
Study Section
(LTIB)
Project Start
Project End
Budget Start
Budget End
Support Year
7
Fiscal Year
2002
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Booth, Brian W; Jhappan, Chamelli; Merlino, Glenn et al. (2007) TGFbeta1 and TGFalpha contrarily affect alveolar survival and tumorigenesis in mouse mammary epithelium. Int J Cancer 120:493-9
Booth, Brian W; Boulanger, Corinne A; Smith, Gilbert H (2007) Alveolar progenitor cells develop in mouse mammary glands independent of pregnancy and lactation. J Cell Physiol 212:729-36
Boulanger, Corinne A; Mack, David L; Booth, Brian W et al. (2007) Interaction with the mammary microenvironment redirects spermatogenic cell fate in vivo. Proc Natl Acad Sci U S A 104:3871-6
Mack, David L; Boulanger, Corinne A; Callahan, Robert et al. (2007) Expression of truncated Int6/eIF3e in mammary alveolar epithelium leads to persistent hyperplasia and tumorigenesis. Breast Cancer Res 9:R42
Lowther, William; Wiley, Korah; Smith, Gilbert H et al. (2005) A new common integration site, Int7, for the mouse mammary tumor virus in mouse mammary tumors identifies a gene whose product has furin-like and thrombospondin-like sequences. J Virol 79:10093-6
Smith, Gilbert H (2005) Label-retaining epithelial cells in mouse mammary gland divide asymmetrically and retain their template DNA strands. Development 132:681-7
Triplett, Aleata A; Sakamoto, Kazuhito; Matulka, Laurice A et al. (2005) Expression of the whey acidic protein (Wap) is necessary for adequate nourishment of the offspring but not functional differentiation of mammary epithelial cells. Genesis 43:1-11
Wagner, Kay-Uwe; Smith, Gilbert H (2005) Pregnancy and stem cell behavior. J Mammary Gland Biol Neoplasia 10:25-36
Clarke, Robert B; Smith, Gilbert H (2005) Stem cells and tissue homeostasis in mammary glands. J Mammary Gland Biol Neoplasia 10:1-3
Boulanger, Corinne A; Wagner, Kay-Uwe; Smith, Gilbert H (2005) Parity-induced mouse mammary epithelial cells are pluripotent, self-renewing and sensitive to TGF-beta1 expression. Oncogene 24:552-60

Showing the most recent 10 out of 13 publications