Cancer cells cultured within collagen I hydrogels exhibit an in vivo solid tumor phenotype

Cells cultured within a 3D environment acquire phenotypes and respond to stimuli analogous to in vivo development. This approach can be applied to the study of tumorigenesis in vitro. In this study, collagen I hydrogels were engineered as a platform for in vitro solid tumor development. Cell seeding...

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Bibliographic Details
Main Authors: Szot, C S, Buchanan, C F, Rylander, M N, Freeman, J W
Format: Conference Proceeding
Language:English
Subjects:
Cancer
Cells (biology)
In vitro
In vivo
Solids
Three dimensional displays
Tumors
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Summary:Cells cultured within a 3D environment acquire phenotypes and respond to stimuli analogous to in vivo development. This approach can be applied to the study of tumorigenesis in vitro. In this study, collagen I hydrogels were engineered as a platform for in vitro solid tumor development. Cell seeding density, scaffold thickness, and matrix stiffness were varied to characterize the development of a hypoxic environment and necrotic core as well as the expression of a key angiogenic factor in breast cancer cells cultured within collagen I hydrogels. Limitations in oxygen and nutrient diffusion through the collagen I matrix along with competition among cells resulted in necrosis at the core of the tumor constructs and upregulation of both HIF-1α and VEGF-A gene expression. Constructs with a higher cell seeding density and greater thickness exhibited development of a necrotic core more rapidly than constructs where diffusion and competition were not deterrents. The results presented in this study demonstrate the capacity of collagen I hydrogels for facilitating development of tumor constructs that are representative of in vivo solid tumor progression.
ISSN:2160-6986
2160-7028
DOI:10.1109/NEBC.2011.5778721