Abstract |
Constant matrix remodeling and cellular heterogeneity in cancer are key contributors to its development and can profoundly alter treatment efficacy. Developingin-vitromodels containing relevant features that can recapitulate these aspects of the tumor microenvironment and that are well characterized can circumvent the limitations of conventional 2D cultures and animal models. Automated fabrication methods combined with biomimetic biomaterials have provided the opportunity to create platforms that can potentially incorporate a heterogeneous population of cells in a 3D environment that allows cell-cell and cell-ECM interactions with reproducibility. This study used 3D extrusion bioprinting and a composite bioink containing a reinforced decellularized extracellular matrix (ECM) hydrogel to fabricate a head and neck cancerin-vitromodel. The constituents of this model included fibroblasts and active ECM proteins to represent the stroma, along with HNSCC cells to represent the tumor component. The topographical characterization of the bioink showed a fibrous network with nanometer-sized pores. After cell encapsulation and model fabrication, we observed spheroid development and growth over time with cancer cells in the core and fibroblasts in the periphery. Our model is compatible with matrix metalloproteinase ( MMP) quantification techniques and showed significant differences in the presence of MMP-9 and MMP-10 compared to the control groups. This characterized model is proposed as a tool for further translational and drug discovery applications since it provides a biomimetic scenario that allows the study of the tumor microenvironmentin-vitrousing nondestructive longitudinal monitoring over time.
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Authors | Jacqueline Kort-Mascort, Molly L Shen, Emma Martin, Salvador Flores-Torres, Lucas Antonio Pardo, Peter M Siegel, Simon D Tran, Joseph Kinsella |
Journal | Biomedical materials (Bristol, England)
(Biomed Mater)
Vol. 18
Issue 4
(06 02 2023)
ISSN: 1748-605X [Electronic] England |
PMID | 37220760
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Copyright | Creative Commons Attribution license. |
Chemical References |
- Decellularized Extracellular Matrix
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Topics |
- Animals
- Tissue Scaffolds
- Tissue Engineering
(methods)
- Decellularized Extracellular Matrix
- Reproducibility of Results
- Extracellular Matrix
(metabolism)
- Neoplasms
(metabolism)
- Bioprinting
(methods)
- Printing, Three-Dimensional
- Tumor Microenvironment
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