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Title Intrafibrillar, bone-mimetic collagen mineralization regulates breast cancer cell adhesion and migration
Date 01.04.2019
Number 55348
Abstract Bone metastasis is a leading cause of death in patients with breast cancer, but the underlying mechanisms are poorly understood. While much work focuses on the molecular and cellular events that drive breast cancer bone metastasis, it is mostly unclear what role bone extracellular matrix (ECM) properties play in this process. Bone ECM primarily consists of mineralized collagen fibrils, which are composed of non-stoichiometric carbonated apatite (HA) and collagen type I. Reduced bone mineral content is epidemiologically linked with increased risk of bone metastasis. Yet elucidating the potential functional impact of collagen mineralization on breast cancer cells has remained challenging because of a lack of model systems that allow studying tumor cell behavior as a function of physiological, intrafibrillar collagen mineralization. Here, we have developed cell culture substrates composed of mineralized collagen type I fibrils using a polymer-induced liquid-precursor (PILP) process. Intrafibrillar HA decreased breast cancer cell adhesion forces and accordingly reduced collagen fiber alignment relative to cells cultured on control collagen. The resulting mineral-mediated changes in collagen network characteristics and mechanosignaling correlated with increased cell motility, but inhibited directed migration of breast cancer cells. These results suggest that physiological mineralization of collagen fibrils reduces tumor cell adhesion with potential functional consequences on skeletal homing of disseminated tumor cells in early stages of breast cancer metastasis.
Publisher Biomaterials
Identifier
Citation Biomaterials 198 (2019) 95-106
DOI https://doi.org/10.1016/J.BIOMATERIALS.2018.05.002
Authors Choi, S. ; Friedrichs, J. ; Song, Y. H. ; Werner, C. ; Estroff, L. ; Fischbach-Teschl, C.
Tags bone metastasis intrafibrillar collagen mineralization hydroxyapatite mechanosignaling collagen fiber alignment

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