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Authors Bray, L. ; Secker, C. ; Murekatete, B. ; Sievers, J. ; Binner, M. ; Welzel, P. ; Werner, C.
Title Three-dimensional in vitro hydro- and cryogel-based cell-culture models for the study of breast-cancer metastasis to bone
Date 27.08.2018
Number 55409
Abstract Bone is the most common site for breast-cancer invasion and metastasis, and it causes severe morbidity and mortality. A greater understanding of the mechanisms leading to bone-specific metastasis could improve therapeutic strategies and thus improve patient survival. While three-dimensional in vitro culture models provide valuable tools to investigate distinct heterocellular and environmental interactions, sophisticated organ-specific metastasis models are lacking. Previous models used to investigate breast-to-bone metastasis have relied on 2.5D or singular-scaffold methods, constraining the in situ mimicry of in vitro models. Glycosaminoglycan-based gels have demonstrated outstanding potential for tumor-engineering applications. Here, we developed advanced biphasic in vitro microenvironments that mimic breast-tumor tissue (MCF-7 and MDA-MB-231 in a hydrogel) spatially separated with a mineralized bone construct (human primary osteoblasts in a cryogel). These models allow distinct advantages over former models due to the ability to observe and manipulate cellular migration towards a bone construct. The gels allow for the binding of adhesion-mediating peptides and controlled release of signaling molecules. Moreover, mechanical and architectural properties can be tuned to manipulate cell function. These results demonstrate the utility of these biomimetic microenvironment models to investigate heterotypic cell–cell and cell–matrix communications in cancer migration to bone.
Publisher Cancers
Wikidata
Citation Cancers 10 (2018) ID292
DOI https://doi.org/10.3390/cancers10090292
Tags breast cancer hydrogel bone metastasis osteoblasts 3d model

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