Anne Shepard scite author profile

The absence of the tumor suppressor gene p53 confers an increased tumorigenic risk for mammary epithelial cells. In this report, we describe the biological and genetic properties of the p53 null preneoplastic mouse mammary epithelium in a p53 wild-type environment. Mammary epithelium from p53 null mice was transplanted serially into the cleared mammary fat pads of p53 wild-type BALB/c female to develop stable outgrowth lines. The outgrowth lines were transplanted for 10 generations. The outgrowths were ductal in morphology and progressed through ductal hyperplasia and ductal carcinoma in situ before invasive cancer. The preneoplastic outgrowth lines were immortal and exhibited activated telomerase activity. They are estrogen and progesterone receptor-positive, and aneuploid, and had various levels of tumorigenic potential. The biological and genetic properties of these lines are distinct from those found in most hyperplastic alveolar outgrowth lines, the form of mammary preneoplasia occurring in most traditional models of murine mammary tumorigenesis. These results indicate that the preneoplastic cell populations found in this genetically engineered model are similar in biological properties to a subset of precurser lesions found in human breast cancer and provide a unique model to identify secondary events critical for tumorigenicity and invasiveness.

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Hormonal Dependence of Mammary Premalignant Progression

Medina

Kittrell²,

Shepard³

et al.

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Hormone-Induced Chromosomal Instability in p53-Null Mammary Epithelium

Pati

Haddad

Haegele

et al. 2004

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Tamoxifen Inhibition of Estrogen Receptor-α–Negative Mouse Mammary Tumorigenesis

Medina

Kittrell

Hill

et al. 2005

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Tamoxifen reduces the relative risk of breast cancer developing from specific premalignant lesions. Many breast cancers that arise after tamoxifen treatment are estrogen receptor-alpha (ER-alpha)-negative, although premalignant lesions such as atypical ductal hyperplasia are highly ER-alpha-positive. The p53 null mouse mammary epithelial transplant model is characterized by ER-alpha-positive premalignant lesions that give rise to both ER-alpha-positive and ER-alpha-negative tumors. Given this progression from ER-alpha-positive to ER-alpha-negative lesions, we tested the ability of tamoxifen to block or delay mammary tumorigenesis in several versions of this model. In groups 1 and 2, p53 null normal mammary epithelial transplants were maintained in virgin mice. In groups 3 to 5, the p53 null and mammary transplants were maintained in mice continuously exposed to high levels of progesterone. In groups 6 and 7, transplants of the premalignant outgrowth line PN8a were maintained in virgin mice. Tamoxifen blocked estrogen signaling in these mice as evidenced by decreases in progesterone-induced lateral branching and epithelial proliferation in the mammary epithelium. Tamoxifen did not alter the elevated levels of progesterone in the blood while significantly reducing the circulating level of prolactin. Tamoxifen reduced tumor incidence in p53 null normal mammary epithelial transplants maintained in virgin mice from 55% to 5% and in progesterone-stimulated mice from 81% to 21%. The majority of the resultant tumors were ER-alpha-negative. Tamoxifen also significantly delayed tumorigenesis in the ER-alpha-positive high premalignant line PN8a from 100% to 75%. These results show that tamoxifen delays the emergence of ER-alpha-negative tumors if given early in premalignant progression.

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p19^ARFDetermines the Balance between Normal Cell Proliferation Rate and Apoptosis during Mammary Gland Development

Shepard

Kittrell

et al. 2004

MBoC

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Anne Shepard

Biological and genetic properties of the p53 null preneoplastic mammary epithelium

Hormonal Dependence of Mammary Premalignant Progression

Hormone-Induced Chromosomal Instability in p53-Null Mammary Epithelium

Tamoxifen Inhibition of Estrogen Receptor-α–Negative Mouse Mammary Tumorigenesis

p19^ARFDetermines the Balance between Normal Cell Proliferation Rate and Apoptosis during Mammary Gland Development

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Anne Shepard

Biological and genetic properties of the p53 null preneoplastic mammary epithelium

Hormonal Dependence of Mammary Premalignant Progression

Hormone-Induced Chromosomal Instability in p53-Null Mammary Epithelium

Tamoxifen Inhibition of Estrogen Receptor-α–Negative Mouse Mammary Tumorigenesis

p19ARFDetermines the Balance between Normal Cell Proliferation Rate and Apoptosis during Mammary Gland Development

Contact Info

Product

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p19^ARFDetermines the Balance between Normal Cell Proliferation Rate and Apoptosis during Mammary Gland Development