An in vitro tumorigenesis model based on live-cell-generated oxygen and nutrient gradients

Anne C. Gilmore; Sarah J. Flaherty; Veena Somasundaram; David A. Scheiblin; Stephen J. Lockett; David A. Wink; William F. Heinz

Journal ArticleOPEN ACCESS

An in vitro tumorigenesis model based on live-cell-generated oxygen and nutrient gradients

Communications Biology (2021) 4(1)

DOI: 10.1038/s42003-021-01954-0

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Abstract

The tumor microenvironment (TME) is multi-cellular, spatially heterogenous, and contains cell-generated gradients of soluble molecules. Current cell-based model systems lack this complexity or are difficult to interrogate microscopically. We present a 2D live-cell chamber that approximates the TME and demonstrate that breast cancer cells and macrophages generate hypoxic and nutrient gradients, self-organize, and have spatially varying phenotypes along the gradients, leading to new insights into tumorigenesis.

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Gilmore, A. C., Flaherty, S. J., Somasundaram, V., Scheiblin, D. A., Lockett, S. J., Wink, D. A., & Heinz, W. F. (2021). An in vitro tumorigenesis model based on live-cell-generated oxygen and nutrient gradients. Communications Biology, 4(1). https://doi.org/10.1038/s42003-021-01954-0

An in vitro tumorigenesis model based on live-cell-generated oxygen and nutrient gradients

Abstract

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