Lung Adenocarcinoma Cell Responses in a 3D in Vitro Tumor Angiogenesis Model Correlate with Metastatic Capacity.

Many tools from the field of tissue engineering can be used to develop novel model systems to study cancer. We have utilized biomimetic synthetic hydrogels, based on poly(ethylene glycol) (PEG) modified with cell adhesive peptides (RGDS) and peptides sensitive to degradation by matrix metalloproteinases 2 and 9 (GGGPQGIWGQGK), as highly controlled 3D substrates for cell culture. We have previously shown that this hydrogel can support growth of tumor cells and also growth and assembly of microvascular networks.

A 3D Poly(ethylene glycol)-based Tumor Angiogenesis Model to Study the Influence of Vascular Cells on Lung Tumor Cell Behavior.

Tumor angiogenesis is critical to tumor growth and metastasis, yet much is unknown about the role vascular cells play in the tumor microenvironment. In vitro models that mimic in vivo tumor neovascularization facilitate exploration of this role. Here we investigated lung adenocarcinoma cancer cells (344SQ) and endothelial and pericyte vascular cells encapsulated in cell-adhesive, proteolytically-degradable poly(ethylene) glycol-based hydrogels.