Maddalena T. Tilli scite author profile

Overexpression of the oncogene amplified in breast cancer 1 (AIB1)/steroid receptor coactivator-3 (SRC-3) induces mammary tumorigenesis in mice. In breast cancer, high levels of AIB1/SRC-3 and the growth factor receptor HER2/neu predict resistance to endocrine therapy and poor outcome. However, a mechanistic relationship between AIB1/SRC-3 and HER2/neu in the development of breast cancer has not been shown. Here, we show that deletion of one allele of SRC-3 significantly delays Neu-induced mammary tumor development in mice. Homozygous deletion of SRC-3 in mice completely prevents Neu-induced tumor formation. By ages 3 to 4 months, Neu/ SRC-3 +/À mice exhibit a noticeable reduction in lateral sidebud formation, accompanied by reduced cellular levels of phosphorylated Neu compared with Neu/SRC-3 wt mice. In Neu-induced tumors, high levels of SRC-3, phosphorylated Neu, cyclin D1, cyclin E, and proliferating cell nuclear antigen expression are observed, accompanied by activation of the AKT and c-Jun NH 2 kinase (JNK) signaling pathways. In comparison, phosphorylated Neu, cyclin D1, and cyclin E are significantly decreased in Neu/SRC-3 +/À tumors, proliferation is reduced, and AKT and JNK activation is barely detectable. Our data indicate that AIB1/SRC-3 is required for HER2/neu oncogenic activity and for the phosphorylation and activation of the HER2/neu receptor. We predict that reducing AIB1/ SRC-3 levels or activity in the mammary epithelium could potentiate therapies aimed at inhibiting HER2/neu signaling in breast cancer. [Cancer Res 2008;68(10):3697-706]

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Activation of estrogen signaling pathways collaborates with loss of Brca1 to promote development of ERα-negative and ERα-positive mammary preneoplasia and cancer

Jones

Tilli

Assefnia

et al. 2007

Oncogene

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BRCA1 can regulate estrogen receptor-a (ERa) activity. This study tested the hypotheses that Brca1 loss in mammary epithelium alters the estrogenic growth response and that exposure to increased estrogen or ERa collaborates with Brca1 deficiency to accelerate preneoplasia and cancer development. Longer ductal extension was found in mammary glands of Brca1 f/f;MMTV-Cre mice during puberty as compared to wild-type mice. Terminal end bud differentiation was impaired in Brca1 mutant mice with preservation of prolactin-induced alveolar differentiation. Exogenous estrogen stimulated an abnormal sustained increase in mammary epithelial cell proliferation and the appearance of ERa-negative preneoplasia in postpubertal Brca1 mutant mice. Carcinogenesis was investigated using Brca1 f/f;MMTV-Cre mice hemizygous for p53. Exogenous estrogen increased the percentage of mice with multiple hyperplastic alveolar nodules. Targeted conditional ERa overexpression in mammary epithelial cells of mice that were Brca1 mutant and hemizygous for p53 increased the percentage of mice exhibiting multiple hyperplastic nodules, invasive mammary cancers and cancer multiplicity. Significantly more than half of the preneoplasia and cancers were ERa negative even as their initiation was promoted by ERa overexpression.

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EXPLANT-CELL CULTURE OF PRIMARY MAMMARY TUMORS FROM MMTV-c-Myc TRANSGENIC MICE

Pei

Noble

Davoli

et al. 2004

In Vitro Cell Dev Biol Anim

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We have established an explant-cell culture system for mammary gland tumors from c-myc oncogene-expressing transgenic mice and potentially other transgenic strains. By coating culture dish surfaces with fetal bovine serum and using culture media supplemented with low serum and growth factors, the mammary tumor specimens could be maintained in culture for over 3 mo. Throughout the culture period, the explants produced abundant outgrowths of epithelial cells. As the outgrowths of epithelial cells filled the dishes, the explants were serially transferred from one dish to another-a process that could be repeated at least six times, thus providing a continuous supply of primary tumor cells. This culture system provides a useful tool for studying the biology of mouse mammary gland tumors and possibly tumors from other organ sites.

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Overexpression of an N-Terminally Truncated Isoform of the Nuclear Receptor Coactivator Amplified in Breast Cancer 1 Leads to Altered Proliferation of Mammary Epithelial Cells in Transgenic Mice

Tilli

Reiter

et al. 2005

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Amplified in breast cancer 1 (AIB1, also known as ACTR, SRC-3, RAC-3, TRAM-1, p/CIP) is a member of the p160 nuclear receptor coactivator family involved in transcriptional regulation of genes activated through steroid receptors, such as estrogen receptor alpha (ER(alpha)). The AIB1 gene and a more active N-terminally deleted isoform (AIB1-Delta3) are overexpressed in breast cancer. To determine the role of AIB1-Delta3 in breast cancer pathogenesis, we generated transgenic mice with human cytomegalovirus immediate early gene 1 (hCMVIE1) promoter-driven over-expression of human AIB1/ACTR-Delta3 (CMVAIB1/ACTR-Delta3 mice). AIB1/ACTR-Delta3 transgene mRNA expression was confirmed in CMV-AIB1/ACTR-Delta3 mammary glands by in situ hybridization. These mice demonstrated significantly increased mammary epithelial cell proliferation (P < 0.003), cyclin D1 expression (P = 0.002), IGF-I receptor protein expression (P = 0.026), mammary gland mass (P < 0.05), and altered expression of CCAAT/enhancer binding protein isoforms (P = 0.029). At 13 months of age, mammary ductal ectasia was found in CMV-AIB1/ACTR-Delta3 mice, but secondary and tertiary branching patterns were normal. There were no changes in the expression patterns of either ER(alpha) or Stat5a, a downstream mediator of prolactin signaling. Serum IGF-I levels were not altered in the transgenic mice. These data indicate that overexpression of the AIB1/ACTR-Delta3 isoform resulted in altered mammary epithelial cell growth. The observed changes in cell proliferation and gene expression are consistent with alterations in growth factor signaling that are thought to contribute to either initiation or progression of breast cancer. These results are consistent with the hypothesis that the N-terminally deleted isoform of AIB1 can play a role in breast cancer development and/or progression.

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Introduction of Estrogen Receptor-α into the tTA/TAg Conditional Mouse Model Precipitates the Development of Estrogen-Responsive Mammary Adenocarcinoma

Tilli

Frech

Steed

et al. 2003

The American Journal of Pathology

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Conditional expression of estrogen receptor (ER)-alpha) was introduced into tetracycline-responsive MMTV-tTA/tetop-TAg mice to develop a mouse model of estrogen-responsive ER-alpha-positive mammary adenocarcinoma. Mammary adenocarcinomas developed in the mice with a mean latency of 11 months. Precursor lesions including ductal hyperplasia and hyperplastic alveolar nodules were present by the age of 4 months. The mammary adenocarcinomas exhibited histological features similar to human breast cancers. ER steroid-binding studies conducted on adenocarcinoma lysates demonstrated binding to estradiol. Tumor explant studies in the presence and absence of estradiol in ovariectomized athymic nude mice revealed that growth of mammary tumors was stimulated by estrogen. In addition, the presence of ER-alpha altered the tumor spectrum in other MMTV-targeted tissues in the tTA/TAg female mice. Lymphomas, which develop in 40% of tTA/TAg female mice, were found in only 4% of tTA/TAg/ER-alpha mice (P = 0.014, chi-square test). These experiments demonstrate that the introduction of an ER-alpha transgene targeted to mammary epithelial cells can be used to develop mouse models of ER-alpha-responsive mammary cancer.

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