Transforming growth factor alpha and mouse models of human breast cancer

Humphreys, Robin; Hennighausen, Lothar

doi:10.1038/sj.onc.1203278

Cited by 80 publications

(47 citation statements)

References 61 publications

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“…The relationship between mammary development and tumorigenesis is highlighted by the observation that these mice also displayed signi®cant delays in mammary gland involution (Sandgren et al, 1995). As these mice still required multiple pregnancies for tumors to form, it is possible that this delay in involution may act to provide an expanded population of proliferating epithelial cells predisposed to transformation (Humphreys and Hennighausen, 2000). However, the long latency observed once again indicates that additional genetic events are necessary for tumor progression in this model.…”

Section: Egfr Ligandsmentioning

confidence: 85%

“…TGF-a possesses strong homology to EGF and like EGF acts as a ligand for the EGFR. TGF and EGFR expression has been found to coincide with normal mammary epithelial proliferation in vivo (reviewed in Humphreys and Hennighausen, 2000). Early studies with transgenic mice expressing TGF-a weakly in the mammary gland showed increased cellular proliferation and fat pad developmental defects (Sandgren et al, 1990).…”

Section: Egfr Ligandsmentioning

confidence: 99%

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Transgenic mouse models of human breast cancer

2000

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Section: Egfr Ligandsmentioning

confidence: 85%

Section: Egfr Ligandsmentioning

confidence: 99%

Transgenic mouse models of human breast cancer

2000

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“…Recent findings revealing distinctive molecular profiles for ERÀ tumors containing ErbB1 versus ErbB2 (Creighton et al, 2006) may shed light on these differences. Cystic papillary tumors in NRL-TGFa mice resemble those of other TGFa transgenic mice (Humphreys and Hennighausen, 2000;Rose-Hellekant and Sandgren, 2000;Arendt et al, 2006). Concurrent expression of heterozygous p53 results in aggressive solid tumors of varying types reflecting the tumor spectrum of p53 þ /À BALB/c mice (Blackburn et al, 2003;Jerry et al, 2000;Kuperwasser et al, 2000), although relative proportions cannot be determined due to low numbers of p53 þ /À mice in the present study.…”

Section: Discussionmentioning

confidence: 62%

“…While TGFa-induced mammary tumorigenesis has been described using the WAP, MMTV and MT promoters (Humphreys and Hennighausen, 2000;Rose-Hellekant and Sandgren, 2000), estrogen sensitivity and/or the expression pattern of these traditional promoters has limited their application. MMTV-transgene expression is uniform at 6 weeks, but becomes focally expressed by 15 weeks (Gunther et al, 2002), and progesterone activates this promoter (Otten et al, 1988).…”

Section: Introductionmentioning

confidence: 99%

Estrogen receptor-positive mammary tumorigenesis in TGFα transgenic mice progresses with progesterone receptor loss

et al. 2007

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We characterized the novel NRL-transforming growth factor alpha (NRL-TGFa) transgenic mouse model in which growth factor -steroid receptor interactions were explored. The NRL promoter directs transgene expression to mammary ductal and alveolar cells and is nonresponsive to estrogen manipulations in vitro and in vivo. NRL-TGFa mice acquire proliferative hyperplasias as well as cystic and solid tumors. Quantitative transcript analysis revealed a progressive decrease in estrogen receptor alpha (ER) and progesterone receptor (PR) mRNA levels with tumorigenesis. However, ER protein was evident in all lesion types and in surrounding stromal cells using immunohistochemistry. PR protein was identified in normal epithelial cells and in very few cells of small epithelial hyperplasias, but never in stromal or tumor cells. Prophylactic ovariectomy significantly delayed tumor development and decreased incidence. Finally, while heterozygous ( þ /À) p53 mice did not acquire mammary lesions, p53 þ /À mice carrying the NRLTGFa transgene developed ER negative/PR negative undifferentiated carcinomas. These data demonstrate that unregulated TGFa expression in the mammary gland leads to oncogenesis that is dependent on ovarian steroids early in tumorigenesis. Resulting tumors resemble a clinical phenotype of ER þ /PRÀ, and when combined with a heterozygous p53 genotype, ERÀ/PRÀ.

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“…Next we compared the protein level of BDP1 in breast tumors from transgenic mice expressing HER2 or other oncogenes under the control of gene promoters, which restrict oncogene expression to the mammary alveolar epithelium (41)(42)(43)(44)(45). Although BDP1 was readily detected in all samples tested, its expression was maximal in the HER2-overexpressing tumor (Fig.…”

Section: Expression Profile Of Bdp1 Her2 and Egfr In Breastmentioning

confidence: 99%

Negative Regulation of HER2 Signaling by the PEST-type Protein-tyrosine Phosphatase BDP1

Gensler

Buschbeck²,

Ullrich

2004

Journal of Biological Chemistry

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Signaling by receptor tyrosine kinases (RTK) mediates a variety of complex cellular functions and in case of deregulation can contribute to pathophysiological processes. A tight and finely tuned control of RTK activity is therefore critical for the cell. We investigated the role of the PEST-type protein-tyrosine phosphatase BDP1 in the regulation of HER2, a member of the epidermal growth factor receptor (EGFR) family of RTKs. Here we demonstrate that HER2 signaling is highly sensitive to BDP1 activity. Overexpression of BDP1 inhibited ligand-induced activation of HER2 but not that of the closely related EGFR. On the other hand, suppression of endogenous BDP1 expression increased the phosphorylation state of HER2. In addition, BDP1 was able to interfere with downstream signaling events by inhibiting the phosphorylation of the adaptor protein Gab1 and reducing mitogen-activated protein kinase activation. Supported by the finding that BDP1 is coexpressed with HER2 in breast cancer cells, we suggest that BDP1 is an important regulator of HER2 activity and thus the first protein-tyrosine phosphatase shown to be involved in HER2 signal attenuation.The epidermal growth factor receptor (EGFR) 1 family of receptor tyrosine kinases (RTKs) consists of the four closely related receptors EGFR (erbB1, HER1), HER2 (erbB2), HER3 (erbB3), and HER4 (erbB4). The common architecture of all EGFR family members comprises a ligand-binding extracellular domain, a transmembrane domain, and a cytoplasmic protein-tyrosine kinase domain. Activation of the receptors results from binding of a ligand of the EGF-like peptide growth factor family, which leads to the formation of receptor homo-and heterodimers (1). The subsequent activation of the intrinsic protein-tyrosine kinase triggers autophosphorylation of specific tyrosine residues within the cytoplasmic domain. These phosphorylation sites then serve as a docking platform for adaptor molecules like Grb2, Shc, or Gab1 and form the starting point for a variety of signaling cascades that regulate cell proliferation, differentiation, migration, and survival (2, 3).Within the EGFR family of RTKs, HER2 has an outstanding role since it does not bind any known growth factor with high affinity. Instead of being activated by direct ligand binding, HER2 seems to be the preferred heterodimerization partner for other EGFR family members that define ligand specificity (4). Upon overexpression, HER2 also occurs as an active homodimer even in the absence of any ligand or heterodimerization partner. These constitutively active HER2 homodimers evade down-regulation mechanisms and cause transformation of immortalized cells (5, 6). According to this oncogenic potential, deregulation of HER2 as well as other EGFR family members is a hallmark of a variety of human cancers (7). For example, amplification of the HER2 gene is found in 20 -30% of early stage breast cancers and the consequential overexpression of the HER2 protein correlates with poor clinical prognosis and reduced survival of the patients (8, 9). B...

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Transforming growth factor alpha and mouse models of human breast cancer

Cited by 80 publications

References 61 publications

Transgenic mouse models of human breast cancer

Transgenic mouse models of human breast cancer

Estrogen receptor-positive mammary tumorigenesis in TGFα transgenic mice progresses with progesterone receptor loss

Negative Regulation of HER2 Signaling by the PEST-type Protein-tyrosine Phosphatase BDP1

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