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ABSTRACT: BACKGROUND: The APC tumor suppressor is mutated or downregulated in many tumor types, and is prominently localized to punctate clusters at protrusion tips in migratory cells, such as in astrocytes where it has been implicated in directed cell motility. Although APC loss is considered an initiating event in colorectal cancer, for example, it is less clear what role APC plays in tumor cell motility and whether loss of APC might be an important promoter of tumor progression in addition to initiation. METHODS: The localization of APC and beta-catenin was analyzed in multiple cell lines, including non-transformed epithelial lines treated with a proteasome inhibitor or TGFbeta to induce an epithelial-to-mesenchymal transition (EMT), as well as several breast cancer lines, by immunofluorescence. APC expression was knocked down in 4T07 mammary tumor cells using lentiviral-mediated delivery of APC-specific short-hairpin (sh) RNAs, and assessed using quantitative (q) reverse-transcriptase (RT)-PCR and western blotting. Tumor cell motility was analyzed by performing wound-filling assays, and morphology via immunofluorescence (IF) and phase-contrast microscopy. Additionally, proliferation was measured using BrdU incorporation, and TCF reporter assays were performed to determine beta-catenin/TCF-mediated transcriptional activity. RESULTS: APC/beta-catenin-rich complexes were observed at protrusion ends of migratory epithelial cells treated with a proteasome inhibitor or when EMT has been induced and in tumor cells with a mesenchymal, spindle-like morphology. 4T07 tumor cells with reduced APC levels were significantly less motile and had a more rounded morphology; yet, they did not differ significantly in proliferation or beta-catenin/TCF transcriptional activity. Furthermore, we found that APC/beta-catenin-rich complexes at protrusion ends were dependent upon an intact microtubule cytoskeleton. CONCLUSIONS: These findings indicate that membrane protrusions with APC/beta-catenin-containing puncta control the migratory potential and mesenchymal morphology of mammary tumor cells and suggest that APC loss during later stages of tumor progression might impact tumor cell dissemination or colonization.
BMC Cancer 01/2013; 13(1):12. · 3.01 Impact Factor
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ABSTRACT: The Adenomatous Polyposis Coli (APC) tumor suppressor gene is silenced by hypermethylation or mutated in up to 70% of human breast cancers. In mouse models, Apc mutation disrupts normal mammary development and predisposes to mammary tumor formation; however, the cooperation between APC and other mutations in breast tumorigenesis has not been studied. To test the hypothesis that loss of one copy of APC promotes oncogene-mediated mammary tumorigenesis, Apc(Min/+) mice were crossed with the mouse mammary tumor virus (MMTV)-Polyoma virus middle T antigen (PyMT) or MMTV-c-Neu transgenic mice. In the PyMT tumor model, the Apc(Min/+) mutation significantly decreased survival and tumor latency, promoted a squamous adenocarcinoma phenotype, and enhanced tumor cell proliferation. In tumor-derived cell lines, the proliferative advantage was a result of increased FAK, Src and JNK signaling. These effects were specific to the PyMT model, as no changes were observed in MMTV-c-Neu mice carrying the Apc(Min/+) mutation. Our data indicate that heterozygosity of Apc enhances tumor development in an oncogene-specific manner, providing evidence that APC-dependent pathways may be valuable therapeutic targets in breast cancer. Moreover, these preclinical model systems offer a platform for dissection of the molecular mechanisms by which APC mutation enhances breast carcinogenesis, such as altered FAK/Src/JNK signaling.
PLoS ONE 01/2011; 6(12):e29339. · 4.09 Impact Factor
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ABSTRACT: Aberrant activation of the Wnt/beta-catenin signaling pathway is a hallmark of many tumors, including breast cancer. In the normal breast, tightly regulated expression of Wnt/beta-catenin pathway components, including Wnts and the APC tumor suppressor, dictates its role in balancing stem cell self-renewal, maintenance and differentiation during embryonic and postnatal development. Therefore, not surprisingly, dysregulation of Wnt/beta-catenin signaling through overexpression of pathway activators, such as Wnts or stabilized beta-catenin, or targeted disruption of inhibitors, such as APC, leads to mammary tumorigenesis in several genetically engineered mouse (GEM) models. These models are powerful tools to dissect the importance of Wnt/beta-catenin signaling in human breast cancer because they recapitulate some of the histological features of human breast cancers that demonstrate pathway dysregulation. Over the last decade, numerous approaches have been developed to target the Wnt/beta-catenin pathway in tumor cells, from antagonizing Wnt ligand secretion or binding to promoting beta-catenin degradation to specifically blocking beta-catenin-mediated transcriptional activity. Despite sizeable hurdles because of gaps in our knowledge of most efficacious ways to inhibit the pathway, the breast cancer subtypes to target and how pathway antagonists might be used in combination therapy, crippling Wnt/beta-catenin signaling offers a tremendous opportunity to impact breast cancer pathogenesis. This review will provide an overview of the current understanding of Wnt/beta-catenin pathway involvement in regulating normal breast development and morphogenesis, the generation of Wnt/beta-catenin-dependent GEM models of human breast cancer, upregulation of signaling in human breast cancers and the compelling therapeutic strategies aimed at targeting the Wnt/beta-catenin pathway that show promising anti-tumor activity.
Current drug targets 09/2010; 11(9):1074-88. · 3.93 Impact Factor
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ABSTRACT: Inactivation of the adenomatous polyposis coli (APC) tumor suppressor has been associated with mammary tumorigenesis in mouse models and through epidemiological studies of human breast cancers, but the normal role for APC in mammary development has not been thoroughly characterized. We report here that Apc(Min/+) mice containing one functional allele of Apc have severely disrupted lobuloalveolar development during pregnancy and lactation, time points at which Apc gene expression is at its highest levels in normal mice. This phenotype was accompanied by altered proliferation during pregnancy and involution, increased apoptosis throughout lactation, the formation of preneoplastic lesions and changes in specific genes associated with each of these processes. Neither modifications in beta-catenin localization, nor the expression of beta-catenin transcriptional target genes, were observed in Apc(Min/+) mammary tissues; however, tissues from lactating Apc(Min/+) mice had a significantly altered epithelial architecture, including disrupted localization of junctional proteins and polarization. Consistent with these findings, APC knockdown in non-transformed mouse mammary epithelial cells in vitro resulted in altered monolayer formation and proliferation without changes in beta-catenin-mediated transcription. These results suggest that APC expression is tightly regulated during mammary gland development and is required for normal mammary homeostasis and tumor suppression primarily through maintaining epithelial integrity.
Journal of Cellular Physiology 04/2009; 220(2):319-31. · 3.87 Impact Factor
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ABSTRACT: Physicochemically modified silicon substrates can provide a high quality alternative to nitrocellulose-coated glass slides for use in reverse-phase protein microarrays. Enhancement of protein microarray sensitivities is an important goal, especially because molecular targets within patient tissues exist in low abundance. The ideal array substrate has a high protein binding affinity and low intrinsic background signal. Silicon, which has low intrinsic autofluorescence, is being explored as a potential microarray surface. In a previous paper ( Nijdam , A. J. ; Cheng , M. M.-C. ; Fedele , R. ; Geho , D. H. ; Herrmann , P. ; Killian , K. ; Espina , V. ; Petricoin , E. F. ; Liotta , L. A. ; Ferrari , M. Physicochemically Modified Silicon as Substrate for Protein Microarrays . Biomaterials 2007 , 28 , 550 - 558 ), it is shown that physicochemical modification of silicon substrates increases the binding of protein to silicon to a level comparable with that of nitrocellulose. Here, we apply such substrates in a reverse-phase protein microarray setting in two model systems.
Journal of Proteome Research 02/2009; 8(3):1247-54. · 5.11 Impact Factor
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ABSTRACT: The present studies evaluated the direct effects of the presence of human cyclooxygenase-2 (Cox-2) on gene expression of specific promoter regions of the P450 Cyp19 enzyme aromatase enzyme and its product, estradiol, in Cox-2 null estrogen-dependent MCF-7 breast tumor cells and in a stable clone of MCF-7 cells containing transfected Cox-2 cDNA, designated as MCF-7/Cox-2 Clone 10. Clone 10 human breast tumor cells have significantly increased gene expression of total mRNA of the P450 Cyp19 enzyme aromatase, with high levels of gene expression of specific aromatase promoter (p) regions pII, pI.3, and p1.7, with no significant change in mRNA levels of p1.4. Clone 10 human breast tumor cells produced significantly increased amounts of both prostaglandin E2 (PGE2) derived from Cox-2 enzyme activity and estradiol derived from aromatase enzyme activity (p<0.01), compared to MCF-7/vector control cells. The greatest inhibition of PGE2 or estradiol production was observed by the combination of the selective Cox-2 inhibitor celecoxib (25 microM) and the aromatase inhibitor, formestane (10nM) (p<0.01). The greatest anti-proliferative effect in Cox-2 null MCF-7/vector control cells was observed with the combination of 25 microM celecoxib and 10nM formestane but not with 10 microM celecoxib, suggesting that there are Cox-2-independent mechanisms involved in the anti-proliferative effect of this agent at doses greater than 10 microM. Celecoxib (25 microM) also significantly inhibited proliferation of MCF-7/Cox-2 Clone 10 human breast tumor cells, with no further anti-proliferative activity with the addition of 10 nM formestane observed at either 24 or 48 h of treatment. These studies demonstrate that Cox-2 directly regulates gene expression of specific aromatase promoter regions and regulates aromatase enzyme activity. Agents that inhibit Cox-2 or block the biological effects of PGE2 may be useful in significantly limiting aromatase activity and proliferation of human breast tumor cells regardless of the presence of Cox-2. In addition, the unique human breast tumor cell model used in these studies may be a useful tool in identifying the spectrum of activities of agents that block the biological effects of PGE2 and estradiol.
Prostaglandins & other lipid mediators 11/2006; 81(1-2):55-70. · 2.70 Impact Factor
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ABSTRACT: To evaluate the direct effect of human cyclooxygenase-2 (hCox-2) on human breast tumor cell proliferation, invasion, and angiogenesis, hCox-2 cDNA was transfected into slow growing, non-metastatic MCF-7 human breast tumor cells that express low levels of Cox-2. Two stable transfectant clones, designated MCF-7/hCox-2 clones 8 and 10, had significantly decreased (P < 0.05) doubling time, with two-fold greater number of cells during exponential growth compared to the MCF-7/vector control. Proliferation of both of the MCF-7/hCox-2 clones was significantly inhibited in a time- and dose-dependent manner by celecoxib. The MCF-7/hCox-2 clones 8 and 10 formed larger and greater numbers of colonies in soft agar than the MCF-7/vector control, with a corresponding increased invasion across an artificial Matrigel basement membrane in response to recombinant human epidermal growth factor (hEGF). The MCF-7/hCox-2 clones 8 and 10 had higher mRNA levels of two splice variants of vascular endothelial growth factor (VEGF), V145 and V165. These results demonstrate that hCox-2 directly increases breast tumor cell proliferation, stimulates invasion across a basement membrane, and induces synthesis of specific heparin binding splice variants of VEGF.
Prostaglandins & other lipid mediators 05/2004; 73(3-4):249-64. · 2.70 Impact Factor
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ABSTRACT: Activation of the WNT signaling pathway has long been implicated in driving cancer pathogenesis from compelling evidence derived
from complementary in vitro and animal studies. Moreover, there are extensive data supporting the nuclear localization of
β-catenin, a surrogate marker frequently used as a read-out of WNT pathway activation, in addition to the overexpression of
pathway activators and loss of pathway inhibitors in human cancers. Despite being most often linked with colorectal cancer,
WNT pathway activation has now been associated with virtually every type of solid cancer that occurs in humans, although the
frequency can vary dramatically among tumor subtypes and specific pathway components. These findings have significant implications
regarding the mechanisms by which pathway activation might drive tumor development in specific tumor subtypes as well as the
potential utility and impact of targeting this pathway therapeutically. In this chapter, we will summarize, both by tumor
type and pathway components, the expansive evidence suggesting that the pathway is dysregulated in nearly half of all the
most common types of human malignancies.
01/1970: pages 81-128;
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ABSTRACT: Based on our studies demonstrating first time evidence that the cyclooxygenase-2 (Cox-2) enzyme is abundant within invasive human breast tumors, we developed a clonally derived human breast tumor cell clone designated as MCF-7/Cox-2 Clone 10 by transfection of human Cox-2 cDNA into slow growing, Cox-2 null, non-metastatic MCF-7 human breast tumor cells. The present studies evaluated the biological characteristics of the MCF-7/Cox-2 Clone 10 human breast tumors compared to the characteristics of MCF-7/empty vector control tumors when grown in vivo following injection of 5x10(6) tumor cells into mammary fat pads of ovariectomized female Crl:Nu-Foxn1(nu) mice implanted with slow release 17-beta estradiol pellets. At 60 days after tumor cell injection, MCF-7/Cox-2 Clone 10 human breast tumors were 4-fold greater (p < 0.01) in volume than MCF-7/empty vector control tumors. MCF-7/Cox-2 Clone 10 human breast tumor xenografts were highly angiogenic based on histological observation of large-bore blood vessels, which was confirmed by immunohistochemical staining with anti-CD-31 antibody and quantitation of mean vessel density. MCF-7/Cox-2 Clone 10 human breast tumor cells were present within regional lymph nodes adjacent to mammary fat pads with their local invasion confirmed by Western blotting of Cox-2-protein. This unique Cox-2-dependent breast tumor model rapidly produces large, angiogenic, locally invasive human breast tumor xenografts in mammary fat pads of ovariectomized female Crl:Nu-Foxn1(nu) mice at 42-60 days which recapitulate human breast ductal carcinomas. This unique model may be invaluable as a means to evaluate preclinical safety and efficacy of novel adjuvant therapies for women with metastastic breast cancer including prostanoid receptor antagonists, newly developed anti-angiogenic therapies, as well as other novel approaches for targeting and destruction of human breast tumors and their vasculature.
Anticancer research 27(2):719-27. · 1.73 Impact Factor
