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ABSTRACT: The homeodomain transcription factors Oct4 and Nanog maintain pluripotency and self-renewal in embryonic stem cells. In somatic cells, inappropriate expression of these genes has been associated with loss of differentiation, malignant transformation, and the acquisition of cancer stem cell-like properties. As cancer stem cells have been suggested to underlie the growth and malignancy of tumors, Oct4 and Nanog may represent therapeutic targets. Their expression could also act as a marker of the cancer stem cell population, permitting its isolation and characterisation. Nevertheless, the existence of multiple pseudogenes and isoforms of these genes has complicated the interpretation of the data that supports a role for Oct4 and Nanog in the cancer context. Here we addressed this issue using knockin mice in which IRES elements are used to allow GFP expression under the control of the endogenous Oct4 or Nanog promoters, while maintaining correct expression of the Oct4 or Nanog gene. These mice were crossed with MT/ret mice that develop melanomas, and with MMTV-PyMT mice and MMTV-Neu mice that develop mammary adenocarcinomas. We analysed the tumors that developed in these compound mice for GFP expression. In this way we could assess transcription of Oct4 and Nanog in autochthonous cancers without the complication of factors such as pseudogene expression, alternative splicing and antibody specificity. Both the Oct4 and Nanog knockin tumor-bearing mice expressed GFP in blastocysts and testes as expected. However, we could find no evidence for expression of the GFP reporter above background levels in tumors using FACS, qPCR and immunohistochemistry. Furthermore, cultivation of Oct4GFP and NanogGFP MMTV-PyMT tumor cells either adherently or as spheroids had no effect on the expression of the GFP reporter. Together these data suggest that Oct4 and Nanog are not expressed in tumor cells that arise in the autochthonous cancer models studied here.
PLoS ONE 01/2013; 8(2):e57465. · 4.09 Impact Factor
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ABSTRACT: Cancer is a complex disease process that evolves as a consequence of multiple malfunctions in key regulatory molecular networks. Understanding these networks will be essential to combat cancer. In this study, we focussed on central players in such networks. In a series of colon and breast cancer cell lines, we found that CD24 activates Src, and induces the activation of c-Jun and expression of c-Jun and c-Fos. Thereby CD24 increases the promoter activity and expression of miR-21, which in turn suppresses expression of Pdcd4 and PTEN. Co-transfection of a CD24 expression construct and an siRNA that silences Src showed that CD24-dependent upregulation of miR-21 is mediated by Src. Additionally, we found that miR-34a post-transcriptionally downregulates CD24 and Src expression, leading to the deactivation of c-Jun, reduced expression of c-Jun and c-Fos, inhibition of miR-21, and upregulation of Pdcd4 and PTEN. Furthermore, miR-34a-mediated inhibition of Src expression reduced migration and invasion of colorectal cancer cells. Resected tumor tissues from 26 colorectal patients showed significantly lower expression of Pdcd4 and miR-34a, and higher expression of CD24, Src and miR-21 compared to the corresponding normal tissues. Moreover, CD24 positively correlated with the amount of Src protein in tumor tissues, and a trend towards an inverse correlation between miR-34a and Src protein levels was also observed. Our results reveal essential players in the complex networks that regulate the progression of solid tumors such as colorectal cancer. These findings therefore identify novel therapeutic approaches for combating tumor growth and progression.
PLoS ONE 01/2013; 8(3):e59563. · 4.09 Impact Factor
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ABSTRACT: Cancer stem cells (CSCs) have been studied intensively in recent years due to their potential importance for understanding neoplastic disease and the design of antitumor therapies. A number of properties attributed to CSCs have been used to define the CSC population, the most important of which is the ability to initiate reproducibly the growth of tumors in vivo. Other assays such as spheroid formation, expression of particular markers and label retention are also used for defining CSCs, although the degree to which these assays invariably reflect the ability to form tumors in vivo remains to be carefully evaluated. Given the importance of correctly defining and isolating CSCs if valid conclusions about their characteristics are to be made, we used syngeneic animal models to compare these different assays. In standard spheroid assays, cell aggregation rather than spheroid growth from single cell suspensions ensued, but aggregation was circumvented by the inclusion of methylcellulose in the medium. Label-retaining subpopulations did not reliably exhibit an enhanced ability to form spheroids and were enriched for senescent cells. Spheroid-forming ability was found to correspond to expression of established CSC markers, although not invariably. Furthermore, spheroid-forming ability was not always reflected in tumor-initiating properties in vivo. Long-term culture of primary mammary tumor cells as adherent monolayers increased their tumor-initiating ability in vivo. This increase was attenuated when the cells were subsequently cultivated as spheroids. Together these data indicate that assays that are widely used to define CSC subpopulations do not invariably reflect tumor-initiating properties in vivo.
International Journal of Cancer 08/2012; · 5.44 Impact Factor
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ABSTRACT: VEGFR-3 is a transmembrane receptor tyrosine kinase that is activated by its ligands VEGF-C and VEGF-D. Although VEGFR-3 has been linked primarily to the regulation of lymphangiogenesis, in the present study, we demonstrate a role for VEGFR-3 in megakaryopoiesis. Using a human erythroleukemia cell line and primary murine BM cells, we show that VEGFR-3 is expressed on megakaryocytic progenitor cells through to the promegakaryoblast stage. Functionally, specific activation of VEGFR-3 impaired the transition to polyploidy of CD41+ cells in primary BM cultures. Blockade of VEGFR-3 promoted endoreplication consistently. In vivo, long-term activation or blockade of VEGFR-3 did not affect steady-state murine megakaryopoiesis or platelet counts significantly. However, activation of VEGFR-3 in sublethally irradiated mice resulted in significantly elevated numbers of CD41+ cells in the BM and a significant increase in diploid CD41+ cells, whereas the number of polyploid CD41+ cells was reduced significantly. Moreover, activation of VEGFR-3 increased platelet counts in thrombopoietin-treated mice significantly and modulated 5-fluorouracil-induced thrombocytosis strongly, suggesting a regulatory role for VEGFR-3 in megakaryopoiesis.
Blood 07/2012; 120(9):1899-907. · 9.90 Impact Factor
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ABSTRACT: The ability of tumor cells to leave a primary tumor, to disseminate through the body, and to ultimately seed new secondary tumors is universally agreed to be the basis for metastasis formation. An accurate description of the cellular and molecular mechanisms that underlie this multistep process would greatly facilitate the rational development of therapies that effectively allow metastatic disease to be controlled and treated. A number of disparate and sometimes conflicting hypotheses and models have been suggested to explain various aspects of the process, and no single concept explains the mechanism of metastasis in its entirety or encompasses all observations and experimental findings. The exciting progress made in metastasis research in recent years has refined existing ideas, as well as giving rise to new ones. In this review we survey some of the main theories that currently exist in the field, and show that significant convergence is emerging, allowing a synthesis of several models to give a more comprehensive overview of the process of metastasis. As a result we postulate a stromal progression model of metastasis. In this model, progressive modification of the tumor microenvironment is equally as important as genetic and epigenetic changes in tumor cells during primary tumor progression. Mutual regulatory interactions between stroma and tumor cells modify the stemness of the cells that drive tumor growth, in a manner that involves epithelial-mesenchymal and mesenchymal-epithelial-like transitions. Similar interactions need to be recapitulated at secondary sites for metastases to grow. Early disseminating tumor cells can progress at the secondary site in parallel to the primary tumor, both in terms of genetic changes, as well as progressive development of a metastatic stroma. Although this model brings together many ideas in the field, there remain nevertheless a number of major open questions, underscoring the need for further research to fully understand metastasis, and thereby identify new and effective ways of treating metastatic disease.
Seminars in Cancer Biology 02/2012; 22(3):174-86. · 6.47 Impact Factor
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Wilko Thiele,
Natalia Novac,
Sigrun Mink,
Caroline Schreiber,
Diana Plaumann,
Johannes Fritzmann,
Natascha Cremers,
Melanie Rothley,
Christian Schwager,
Thomas Regiert,
Peter E Huber,
Ulrike Stein,
Peter Schlag,
Jürgen Moll,
Amir Abdollahi, Jonathan P Sleeman
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ABSTRACT: We have previously reported that over-expression of a panel of 119 genes correlates with the metastatic potential of pancreatic carcinoma cells. We sought to identify and functionally characterize candidate tumour metastasis promoting genes among this library using a secondary phenotype-assisted screen. Here we report the discovery of the metastasis-promoting function of a hitherto not characterized gene located on chromosome 14 (ORF138), which we have named 'novel metastasis-promoting gene 1' (NVM-1). The NVM-1 transcript is extensively alternatively spliced, is expressed endogenously in a number of different tissues, and is strongly over-expressed at the protein level in a variety of human tumour types. Importantly, NVM-1 expression stimulates the migratory and invasive behaviour of tumour cells and promotes metastasis formation in experimental animals in vivo. Up-regulation of FMNL2 and MT1E and down-regulation of TIMP4 and MHC-I is observed as a consequence of NVM-1 expression. Together these data identify NVM-1 as a gene that is functionally involved in tumour metastasis, and suggest that NVM-1 may constitute a promising therapeutic target for inhibition of tumour metastasis.
The Journal of Pathology 09/2011; 225(1):96-105. · 6.32 Impact Factor
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Petra Baumann,
Wilko Thiele,
Natascha Cremers,
Santoshi Muppala,
Justyna Krachulec,
Markus Diefenbacher,
Olivier Kassel,
Giridhar Mudduluru,
Heike Allgayer,
Margaret Frame, Jonathan P Sleeman
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ABSTRACT: Expression of the glycosylphosphatidylinositol-anchored membrane protein CD24 correlates with a poor prognosis for many human cancers, and in experimental tumors can promote metastasis. However, the mechanism by which CD24 contributes to tumor progression remains unclear. Here we report that in MTLy breast cancer cells CD24 interacts with and augments the kinase activity of c-src, a protein strongly implicated in promoting invasion and metastasis. This occurs within and is dependent upon intact lipid rafts. CD24-augmented c-src kinase activity increased formation of focal adhesion complexes, accelerated phosphorylation of FAK and paxillin and consequently enhanced integrin-mediated adhesion. Loss and gain of function approaches showed that c-src activity is necessary and sufficient to mediate the effects of CD24 on integrin-dependent adhesion and cell spreading, as well as on invasion. Together these results indicate that c-src is a CD24-activated mediator that promotes integrin-mediated adhesion and invasion, and suggest a mechanism by which CD24 might contribute to tumor progression through stimulating the activity of c-src or another member of the Src family.
Cellular and Molecular Life Sciences CMLS 06/2011; 69(3):435-48. · 6.57 Impact Factor
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Cell 04/2011; 145(1):162.e1. · 32.40 Impact Factor
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ABSTRACT: Metastasis, the life-threatening aspect of cancer, is a systemic disease process. Considerable progress has been made in recent years regarding how tumor cells circulating in the blood and lymphatic systems interact with and extravasate into secondary sites, and what determines whether these disseminated tumors cells survive, remain dormant or go on to form macrometastases. New insights into the routes that tumor cells take once leaving the primary tumor have emerged. Novel concepts regarding early seeding of metastases coupled to parallel progression, self-seeding of primary tumors by circulating tumor cells and the induction of premetastatic niches in distant organs by primary tumors have come to the fore. The perceived role of the lymphatic system in determining patterns of metastasis formation in distant organs has been reassessed. Together these new insights have the potential to offer new therapeutic options. In particular, the regulation of tumor cell dormancy emerges as a key event in metastasis formation, and therapeutic control of dormancy holds the promise of rendering cancer a chronic rather than life-threatening disease.
International Journal of Cancer 03/2011; 128(11):2511-26. · 5.44 Impact Factor
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ABSTRACT: Skin atrophy is part of the normal ageing process, but is accelerated by topical glucocorticoid (GC) treatments that are widely used in dermatology. Hyaluronan (HA) is one of the most abundant components of the cutaneous extracellular matrix and is involved in tissue homeostasis, hydration, and repair processes, but little is known about the effects of GCs on HA synthesis and stability. Here we examined the regulation of HA metabolism in human skin during GC therapy. Expression of the HA synthesizing enzymes hyaluronan synthase (HAS)-2 and HAS-3 and the HA degrading enzymes HYAL-1, HYAL-2, and HYAL-3 in response to GC treatment was evaluated. HAS-2 expression was markedly suppressed by dexamethasone treatment of cultured fibroblasts and HaCaT keratinocyte cells, and in human skin biopsies taken from volunteers treated with dexamethasone ointment. Consistently, the HA content of cell culture supernatants and in human skin was reduced after dexamethasone treatment. Hyaluronidase expression and activity, on the other hand, was not altered by dexamethasone treatment. These data show that the levels of skin HA rapidly decrease after short-term GC treatment due to a reduction in HA synthesis, while HA degradation is not changed. This may reflect an initiation of skin atrophy in response to topically applied GCs.
Journal of Investigative Dermatology 08/2009; 130(1):141-9. · 6.31 Impact Factor
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ABSTRACT: Tumor-associated lymphatic vessels act as a conduit by which disseminating tumor cells access regional lymph nodes and form metastases there. Lymph node metastasis is of major prognostic significance for many types of cancer, although lymph node metastases are themselves rarely life-threatening. These observations focus our attention on understanding how tumor cells interact with the lymphatic vasculature, and why this interaction is so significant for prognosis. Tumors interact with the lymphatic vasculature in a number of ways, including vessel co-option, chemotactic migration and invasion into lymphatic vessels and induction of lymphangiogenesis. Tumor-induced lymphangiogenesis both locally and in regional lymph nodes has been correlatively and functionally associated with metastasis formation and poor prognosis. The investigation of the molecular regulation of lymphangiogenesis has identified ways of interfering with prolymphangiogenic signaling. Blockade of tumor-induced lymphangiogenesis in preclinical models inhibits metastasis formation in lymph nodes and often also in other organs, suggesting that blocking the lymphatic route of dissemination might suppress metastasis formation not only in lymph nodes but also in other organs. However, randomized clinical trials that have investigated the efficacy of therapeutic removal of lymph nodes have concluded that lymph node metastases act only as indicators that primary tumors have developed metastatic potential, and do not govern the further spread of metastatic cells. To reconcile these apparently paradoxical observations we suggest a model in which tumor-induced lymphangiogenesis and lymph node metastasis formation act as indicators that tumors are producing factors that can act systemically to promote metastasis formation in distant organs.
International Journal of Cancer 07/2009; 125(12):2747-56. · 5.44 Impact Factor
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ABSTRACT: Inducible gene expression is a powerful tool for basic research, gene therapy and biotechnology, whose utility depends in part on consistent levels of induction regardless of metabolic status or physiological context. Here we examined the inducibility of the ecdysone receptor-based RheoSwitch mammalian inducible expression system in proliferating cells and in cell cycle-arrested cells. We found that both contact inhibition and growth arrest subsequent to serum deprivation dramatically reduced the levels of induction of reporter genes that could be achieved in 3T3 fibroblasts but in not NMuMG mammary epithelial cells. These data have implications for the use of the RheoSwitch system in inducible gene expression applications.
BioTechniques 06/2009; 46(6):433-40. · 2.67 Impact Factor
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Melanie Rothley,
Anja Schmid,
Wilko Thiele,
Vivien Schacht,
Diana Plaumann,
Michael Gartner,
Aybike Yektaoglu,
Françoise Bruyère,
Agnès Noël,
Athanassios Giannis, Jonathan P Sleeman
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ABSTRACT: The phloroglucinol derivative hyperforin, a major bioactive constituent of St. John's wort, is increasingly recognized as being able to regulate a variety of pathobiological processes and, thus, to possess potential therapeutic properties. In the context of cancer, hyperforin induces the apoptosis of cancer cells, inhibits angiogenesis and suppresses metastasis formation. Here, we report a new pharmacological function of hyperforin and its stabilized derivative aristoforin, namely the suppression of lymphatic endothelial cell (LEC) growth and lymphangiogenesis. At concentrations less than 10 microM, we found that these compounds induce cell cycle arrest of LECs, and at higher concentrations induce apoptosis. The loss of mitochondrial membrane potential and the activation of caspase-9 during the induction of apoptosis indicate that the intrinsic pathway of apoptosis is stimulated by these compounds, similar to the situation in tumor cells. In thoracic duct ring outgrowth assays, hyperforin and aristoforin both inhibited lymphangiogenesis, as evidenced by the suppression of lymphatic capillary outgrowth. In an in vivo animal model, both compounds were able to inhibit tumor-induced lymphangiogenesis. Together these data substantiate a new role for hyperforin and its derivatives as suppressors of lymphangiogenesis, and support their further investigation as potential anticancer drugs that target tumor growth and metastasis at multiple levels.
International Journal of Cancer 02/2009; 125(1):34-42. · 5.44 Impact Factor
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Ulf Anderegg,
Thea Eichenberg,
Tanja Parthaune,
Christian Haiduk,
Anja Saalbach,
Linda Milkova,
Andreas Ludwig,
Jens Grosche,
Marco Averbeck,
Carl Gebhardt,
Verena Voelcker, Jonathan P Sleeman,
Jan C Simon
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ABSTRACT: CD44 proteins are cell surface receptors for hyaluronic acid (HA), a component of the extracellular matrix that has multiple effects on cell behavior. CD44 can be shed from the cell surface by proteolytic cleavage. The resulting soluble form can interfere with the interaction between HA and membrane-bound CD44. Soluble CD44 can abolish the cell proliferation-promoting effect of HA on melanoma cell lines, suggesting that a better understanding of the shedding process might identify ways of blocking tumor cell proliferation. ADAM10, ADAM17, and MMP14 have previously been implicated in the shedding of CD44 from various tumor cells. Using immunohistochemistry we demonstrate that ADAM10 and ADAM17 but not MMP14 are significantly expressed on melanoma cells in histological sections. In human melanoma cell lines expression of these proteases could be blocked by transfection with appropriate siRNAs. However, only blocking of ADAM10 expression led to decreased shedding of CD44. In parallel, cell proliferation was promoted. Confocal microscopy demonstrated that ADAM10 and CD44 colocalize on the cell surface. We conclude that ADAM10 is the predominant protease involved in the constitutive shedding of endogenous CD44 from melanoma cells, and that enhancement of ADAM10 activity could be an approach to decrease the proliferation of melanoma cells.
Journal of Investigative Dermatology 11/2008; 129(6):1471-82. · 6.31 Impact Factor
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Françoise Bruyère,
Laurence Melen-Lamalle,
Silvia Blacher,
Guy Roland,
Marc Thiry,
Lieve Moons,
Francis Frankenne,
Peter Carmeliet,
Kari Alitalo,
Claude Libert, Jonathan P Sleeman,
Jean-Michel Foidart,
Agnès Noël
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ABSTRACT: A lack of appropriate in vitro models of three-dimensional lymph vessel growth hampers the study of lymphangiogenesis. We developed a lymphatic ring assay--a potent, reproducible and quantifiable three-dimensional culture system for lymphatic endothelial cells that reproduces spreading of endothelial cells from a pre-existing vessel, cell proliferation, migration and differentiation into capillaries. In the assay, mouse thoracic duct fragments are embedded in a collagen gel, leading to the formation of lumen-containing lymphatic capillaries, which we assessed by electron microscopy and immunostaining. We developed a computerized method to quantify the lymphatic network. By applying this model to gene-deficient mice, we found evidence for involvement of the matrix metalloproteinase, MMP-2, in lymphangiogenesis. The lymphatic ring assay bridges the gap between two-dimensional in vitro models and in vivo models of lymphangiogenesis, can be used to exploit the potential of existing transgenic mouse models, and rapidly identify regulators of lymphangiogenesis.
Nature Methods 06/2008; 5(5):431-7. · 19.28 Impact Factor
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ABSTRACT: Dendritic cells (DCs) need to mobilize within the extracellular matrix (ECM) during their maturation and concomitant migration from peripheral sites to lymphoid organs. Syndecans are cell surface proteoglycans that mediate the interaction of DCs with the ECM. Here we investigated the influence of syndecans on dendritic cell motility and morphology. Langerhans cells of the epidermis and monocyte-derived DCs were found to undergo a switch in syndecan expression during maturation. Syndecan-1 was downregulated and syndecan-4 was strongly upregulated within the first hours of lipopolysaccharide-induced dendritic cell maturation and during Langerhans cell emigration from human skin, as shown by flow cytometry and qRT-PCR. Syndecan-1 downregulation was inhibited by syndecan-4 siRNA knock-down, indicating a functional interconnection between enhanced syndecan-4 expression and syndecan-1 downregulation. Syndecan-4 upregulation is functionally involved in dendritic cell motility, as inhibition of syndecan-4 function by means of blocking antibodies or through siRNA knock-down decreased dendritic cell motility. In other experiments, the cytoskeletal component a-actinin was observed to be upregulated in DCs as a consequence of the induction of maturation, and was found to colocalize with syndecan-4. Furthermore, lammellopodial spreading by DCs on fibronectin (FN)-coated surfaces was dependent on syndecan-4. This binding of syndecan-4 to FN and its association with the cytoskeleton may be relevant for syndecan-4-dependent dendritic cell motility. We conclude that the switch in syndecan expression during dendritic cell maturation controls the motility of DCs in a way that appears to be crucial for their mobilization from peripheral sites and subsequent migration to lymphoid tissues.
Experimental Dermatology 08/2007; 16(7):580-9. · 3.54 Impact Factor
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ABSTRACT: Hyaluronan (HA), a major component of the cutaneous extracellular-matrix, is involved in tissue repair. Human skin is exposed to and damaged by UVB-irradiation. Here, we investigate the regulation of HA metabolism in human skin during acute UVB-induced inflammation. Expression of HA synthesizing (HAS) and degrading enzymes hyaluronidase (HYAL) as evaluated by quantitative reverse transcribed PCR in response to UVB differed when fibroblasts and HaCaT-keratinocytes, representative cell types in dermis and epidermis, respectively, were compared. Both demonstrated temporally different expression patterns of these genes 3- and 24-hours post-irradiation. This resulted 24-hours post-irradiation in an increase in HAS gene expression in both fibroblasts and HaCaT-keratinocytes, and an increase in HYAL expression only in fibroblasts. HA-production as analyzed by the HA content of conditioned medium was reduced in HaCaT and fibroblast cultures 3-hours post-irradiation, whereas HA increased in HaCaT-cultures 24-hours post-irradiation but remained suppressed in fibroblasts-cultures. Consistently, immunohistochemical staining for HA in human skin 24-hours post-irradiation demonstrated an increased epidermal HA, but a decrease in the dermal compartment. Moreover, analysis of the HA content of dermal microdialysis-fluid revealed increased accumulation of HA degradation products 24-hours post-irradiation. These data demonstrate that there is a complex temporal and spatial regulation of HA-metabolism in skin in response to UVB irradiation.
Journal of Investigative Dermatology 04/2007; 127(3):687-97. · 6.31 Impact Factor
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ABSTRACT: EMT (epithelial-mesenchymal transition) is a morphogenetic process in which cells loose their epithelial characteristics and gain mesenchymal properties during embryogenesis. Similar processes regulated by similar pathways are recapitulated during tumour progression, endowing cells with invasive properties, thereby contributing to the formation of metastases. In this review, we outline key features of EMT and discuss the evidence for its involvement in the dissemination of tumours. Finally we review the recent literature concerning the mechanisms that regulate EMT in the tumour context, with a particular focus on breast cancer.
Clinical and Experimental Metastasis 02/2007; 24(8):587-97. · 3.52 Impact Factor
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ABSTRACT: The currently prevailing ideas that set out to explain the process of metastasis are largely based on observations made on the total tumor cell population, and often focus on tumor-intrinsic properties. The clinical observation that particular tumor types show a predilection to metastasize to particular organs has been understood in terms of Paget's "Seed and Soil" hypothesis, but a definition of the molecular basis for the "Seed and Soil" hypothesis is at best only partial. Recent ideas about the cellular basis of tumor growth (cancer stem cells) and the remote establishment by primary tumors of special permissive microenvironments in target organs prior to metastasis (pre-metastatic niches) have the potential to radically change our view of the metastatic process. In this review we examine these new concepts with a particular emphasis on findings made in the context of breast cancer, and compare these concepts with ideas based on studies using the total tumor cell population.
Clinical and Experimental Metastasis 02/2007; 24(8):707-15. · 3.52 Impact Factor
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ABSTRACT: Recent advances in understanding the biology of lymphangiogenesis, the new growth of lymphatic vessels, have cast new light on the molecular basis of metastasis to regional lymph nodes. The receptor tyrosine kinase VEGFR-3 is virtually exclusively expressed on lymphatic but not blood endothelium in the adult, and activation of VEGFR-3 by its ligands VEGF-C and VEGF-D is sufficient to induce lymphangiogenesis. Correlative studies with human tumors and functional studies using animal tumor models show that increased levels of VEGF-C or VEGF-D in tumors lead to enhanced numbers of lymphatic vessels in the vicinity of tumors, which in turn promotes metastasis to regional lymph nodes by providing a greater number of entry sites into the lymphatic system for invading tumor cells. These findings have prompted studies to investigate whether inhibitors of VEGFR-3 activation might represent novel therapeutic agents for the suppression of metastasis. However, a number of points regarding the therapeutic potential of anti-lymphangiogenic treatments in the context of cancer remain to be addressed. The spectrum and relative importance of molecules that induce lymphangiogenesis and the regulation of their expression during tumor progression, the reversibility of tumor-induced lymphangiogenesis, and possible side-effects of anti-lymphangiogenesis-based therapies all need to be investigated. Most importantly, the extent to which lymph node metastases contribute to the formation of metastases in other organs remains to be elucidated. These aspects are the focus of this review, and their investigation should serve as a roadmap to possible translational application.
Journal of Biotechnology 07/2006; 124(1):224-41. · 3.05 Impact Factor
