Angela R. Hess scite author profile

Tissue sections from aggressive human intraocular (uveal) and metastatic cutaneous melanomas generally lack evidence of significant necrosis and contain patterned networks of interconnected loops of extracellular matrix. The matrix that forms these loops or networks may be solid or hollow. Red blood cells have been detected within the hollow channel components of this patterned matrix histologically, and these vascular channel networks have been detected in human tumors angiographically. Endothelial cells were not identified within these matrix-embedded channels by light microscopy , by transmission electron microscopy , or by using an immunohistochemical panel of endothelial cell markers (Factor VIIIrelated antigen , Ulex , CD31 , CD34 , and KDR[Flk-1]). Highly invasive primary and metastatic human melanoma cells formed patterned solid and hollow matrix channels (seen in tissue sections of aggressive primary and metastatic human melanomas) in threedimensional cultures containing Matrigel or dilute Type I collagen , without endothelial cells or fibroblasts. These tumor cell-generated patterned channels conducted dye , highlighting looping patterns visualized angiographically in human tumors. Neither normal melanocytes nor poorly invasive melanoma cells generated these patterned channels in vitro under identical culture conditions , even after the addition of conditioned medium from metastatic pattern- It is generally assumed that tumors require a blood supply for growth and metastasis. 1 The development of the tumor microcirculation compartment includes both the production of new blood vessels (angiogenesis) and their remodeling. 2 In fact, the number of vessels 3 and the patterning of the microcirculation 4 by remodeling events are used as histological markers of tumor progression. Although attention has been focused on factors that stimulate and suppress tumor angiogenesis, the molecular mechanisms underlying tumor remodeling remain enigmatic. It is therefore critical to investigate remodeling of the intratumoral microvasculature in various tumor models.Melanoma is among the better characterized tumor models with respect to prognostic staging of disease progression. The rising incidence of cutaneous melanoma makes this tumor an important public health problem. Melanoma of the interior of the eye, uveal melanoma, although much less common than cutaneous melanoma, poses a threat to vision and significant morbidity; nearly 50% of patients with uveal melanoma die from metastatic melanoma. 5 Cutaneous melanoma may disseminate through lymphatics or blood vessels. In contrast, the interior of the eye lacks lymphatics, and uveal melanoma, which develops in one of the most capillary-rich tissues of the body, is a paradigm for pure hematogeneous dissemination of cancer. 6 Therefore, the development of a tumor microcirculation in uveal melanoma is a rate-limiting step for hematological metastasis and serves as an important model for study of the cellular and molecular infrastruc-

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Vasculogenic mimicry and tumour-cell plasticity: lessons from melanoma

Hendrix

et al. 2003

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The gene-expression profile of aggressive cutaneous and uveal melanoma cells resembles that of an undifferentiated, embryonic-like cell. The plasticity of certain types of cancer cell could explain their ability to mimic the activities of endothelial cells and to participate in processes such as neovascularization and the formation of a fluid-conducting, matrix-rich meshwork. This ability has been termed 'vasculogenic mimicry'. How does vasculogenic mimicry contribute to tumour progression, and can it be targeted by therapeutic agents?

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Embryonic and tumorigenic pathways converge via Nodal signaling: role in melanoma aggressiveness

Topczewska

Postovit

Margaryan

et al. 2006

Nat Med

411

444

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Bidirectional cellular communication is integral to both cancer progression and embryological development. In addition, aggressive tumor cells are phenotypically plastic, sharing many properties with embryonic cells. Owing to the similarities between these two types of cells, the developing zebrafish can be used as a biosensor for tumor-derived signals. Using this system, we show that aggressive melanoma cells secrete Nodal (a potent embryonic morphogen) and consequently can induce ectopic formation of the embryonic axis. We further show that Nodal is present in human metastatic tumors, but not in normal skin, and thus may be involved in melanoma pathogenesis. Inhibition of Nodal signaling reduces melanoma cell invasiveness, colony formation and tumorigenicity. Nodal inhibition also promotes the reversion of melanoma cells toward a melanocytic phenotype. These data suggest that Nodal signaling has a key role in melanoma cell plasticity and tumorigenicity, thereby providing a previously unknown molecular target for regulating tumor progression.

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Expression and functional significance of VE-cadherin in aggressive human melanoma cells: Role in vasculogenic mimicry

Hendrix

Seftor

Meltzer

et al. 2001

Proc. Natl. Acad. Sci. U.S.A.

424

370

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We recently have introduced the term vasculogenic mimicry to describe the unique ability of aggressive melanoma tumor cells to form tubular structures and patterned networks in three-dimensional culture, which ''mimics'' embryonic vasculogenic networks formed by differentiating endothelial cells. In the current study, we address the biological significance of several endothelial-associated molecules (revealed by microarray analysis) with respect to expression and function in highly aggressive and poorly aggressive human cutaneous melanoma cell lines (established from the same patient). In a comparative analysis, CD31 was not expressed by any of the melanoma cell lines, whereas TIE-1 (tyrosine kinase with Ig and epidermal growth factor homology domains-1) was strongly expressed

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Angela R. Hess

Vascular Channel Formation by Human Melanoma Cells in Vivo and in Vitro: Vasculogenic Mimicry

Vasculogenic mimicry and tumour-cell plasticity: lessons from melanoma

Embryonic and tumorigenic pathways converge via Nodal signaling: role in melanoma aggressiveness

Expression and functional significance of VE-cadherin in aggressive human melanoma cells: Role in vasculogenic mimicry

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