1. Fibroblasts Influence Survival and Therapeutic Response in a 3D Co-Culture Model
- Author
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Leon P. Pradel, Carola Ries, Manuela Gies, and Meher Majety
- Subjects
Cell Survival ,Cell ,Population ,lcsh:Medicine ,Biology ,Metastasis ,Cell Line ,Pancreatic cancer ,Spheroids, Cellular ,medicine ,Humans ,education ,lcsh:Science ,education.field_of_study ,Tumor microenvironment ,Multidisciplinary ,lcsh:R ,Fibroblasts ,medicine.disease ,Coculture Techniques ,Cell biology ,medicine.anatomical_structure ,Tumor progression ,Cell culture ,Cancer cell ,Cytokines ,Intercellular Signaling Peptides and Proteins ,lcsh:Q ,Research Article - Abstract
In recent years, evidence has indicated that the tumor microenvironment (TME) plays a significant role in tumor progression. Fibroblasts represent an abundant cell population in the TME and produce several growth factors and cytokines. Fibroblasts generate a suitable niche for tumor cell survival and metastasis under the influence of interactions between fibroblasts and tumor cells. Investigating these interactions requires suitable experimental systems to understand the cross-talk involved. Most in vitro experimental systems use 2D cell culture and trans-well assays to study these interactions even though these paradigms poorly represent the tumor, in which direct cell-cell contacts in 3D spaces naturally occur. Investigating these interactions in vivo is of limited value due to problems regarding the challenges caused by the species-specificity of many molecules. Thus, it is essential to use in vitro models in which human fibroblasts are co-cultured with tumor cells to understand their interactions. Here, we developed a 3D co-culture model that enables direct cell-cell contacts between pancreatic, breast and or lung tumor cells and human fibroblasts/ or tumor-associated fibroblasts (TAFs). We found that co-culturing with fibroblasts/TAFs increases the proliferation in of several types of cancer cells. We also observed that co-culture induces differential expression of soluble factors in a cancer type-specific manner. Treatment with blocking antibodies against selected factors or their receptors resulted in the inhibition of cancer cell proliferation in the co-cultures. Using our co-culture model, we further revealed that TAFs can influence the response to therapeutic agents in vitro. We suggest that this model can be reliably used as a tool to investigate the interactions between a tumor and the TME.
- Published
- 2015