Irina Arnaoutova scite author profile

A protocol is presented here for a rapid, quantitative and reliable in vitro angiogenesis assay that can be adapted for high throughput use. Endothelial cells are plated on a gelled basement matrix, their natural substrate, and form capillary-like structures with a lumen. The assay can be used to identify inhibitors or stimulators of angiogenesis, as well as genes and signaling pathways involved in angiogenesis. It has also been used to identify endothelial progenitor cells. This assay involves endothelial cell adhesion, migration, protease activity and tubule formation. This tube formation assay is preferred, as other in vitro assays for angiogenesis, such as cell adhesion, migration and invasion, measure limited steps in the angiogenesis process. The tube formation assay on basement membrane can be completed in a day because transformed endothelial cells form tubes within 3 h, whereas non-transformed endothelial cells form tubes within 6 h.

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The endothelial cell tube formation assay on basement membrane turns 20: state of the science and the art

Arnaoutova

et al. 2009

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It has been more than 20 years since it was first demonstrated that endothelial cells will rapidly form capillary-like structures in vitro when plated on top of a reconstituted basement membrane extracellular matrix (BME, Matrigel, EHS matrix, etc.). Subsequently, this morphological differentiation has been demonstrated with a variety of endothelial cells; with endothelial progenitor cells; and with transformed/immortalized endothelial cells. The differentiation process involves several steps in blood vessel formation, including cell adhesion, migration, alignment, protease secretion, and tubule formation. Because the formation of vessel structures is rapid and quantifiable, endothelial cell differentiation on basement membrane has found numerous applications in assays. Such differentiation has been used (1) to study angiogenic and antiangiogenic factors, (2) to define mechanisms and pathways involved in angiogenesis, and (3) to define endothelial cell populations. Further, the endothelial cell differentiation assay has been successfully used to study processes ranging from wound repair and reproduction to development and tumor growth. The assay is easy to perform and is the most widely used in vitro angiogenesis assay.

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Matrigel: From discovery and ECM mimicry to assays and models for cancer research

Benton

Arnaoutova

George

et al. 2014

Advanced Drug Delivery Reviews

377

303

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Dense-Core Secretory Granule Biogenesis

et al. 2006

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Multiple uses of basement membrane‐like matrix (BME/Matrigel) in vitro and in vivo with cancer cells

Benton

Kleinman

George

et al. 2011

Intl Journal of Cancer

187

134

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Significant advances in our understanding of cancer cell behavior, growth, and metastasis have been facilitated by studies using a basement membrane-like extracellular matrix extract, also known as Matrigel. The basement membrane is a thin extracellular matrix that is found in normal tissues and contacts epithelial and endothelial cells, smooth muscle, fat, Schwann cells, etc. It is composed of mainly laminin-111, collagen IV, heparan sulfate proteoglycan, entactin/nidogen, and various growth factors (fibroblast growth factor, transforming growth factor beta, epidermal growth factor, etc.). Most tumors of epithelial origin produce significant amounts of basement membrane matrix and interact with it particularly during metastasis. Cancer cells metastasize via degradation of the vessel basement membrane matrix to extravasate into the blood stream and colonize distant sites. This review will focus on the interaction of cancer cells and cancer stem cells with the basement membrane-like matrix and the various uses of this interaction to accelerate tumor growth in vivo and to develop in vitro assays for invasion, morphology, and dormancy. Such assays and methods have advanced our understanding of the process of cancer progression, the genes and pathways that are involved, the potential of various therapeutic agents, the effects of neighboring cells, and the role of stem cells.

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