From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β

From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β

Abstract Cancer cells have the ability to migrate from the primary (original) site to other places in the body. The extracellular matrix affects cancer cell migratory capacity and has been correlated with tissue-specific spreading patterns. However, how the matrix orchestrates these behaviors remain...

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Main Authors: J. Plou, Y. Juste-Lanas, V. Olivares, C. del Amo, C. Borau, J. M. García-Aznar
Format: Article
Language:English
Published: Nature Publishing Group 2018-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-018-30683-4
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spelling doaj-aa5cd0428bdd47f99c989fb173635ff02020-12-08T03:24:39ZengNature Publishing GroupScientific Reports2045-23222018-08-018111410.1038/s41598-018-30683-4From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-βJ. Plou0Y. Juste-Lanas1V. Olivares2C. del Amo3C. Borau4J. M. García-Aznar5Multiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaMultiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaMultiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaMultiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaMultiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaMultiscale in Mechanical and Biological Engineering, Aragon Institute of Engineering Research (I3A), Department of Mechanical Engineering, University of ZaragozaAbstract Cancer cells have the ability to migrate from the primary (original) site to other places in the body. The extracellular matrix affects cancer cell migratory capacity and has been correlated with tissue-specific spreading patterns. However, how the matrix orchestrates these behaviors remains unclear. Here, we investigated how both higher collagen concentrations and TGF-β regulate the formation of H1299 cell (a non-small cell lung cancer cell line) spheroids within 3D collagen-based matrices and promote cancer cell invasive capacity. We show that at low collagen concentrations, tumor cells move individually and have moderate invasive capacity, whereas when the collagen concentration is increased, the formation of cell clusters is promoted. In addition, when the concentration of TGF-β in the microenvironment is lower, most of the clusters are aggregates of cancer cells with a spheroid-like morphology and poor migratory capacity. In contrast, higher concentrations of TGF-β induced the formation of clusters with a notably higher invasive capacity, resulting in clear strand-like collective cell migration. Our results show that the concentration of the extracellular matrix is a key regulator of the formation of tumor clusters that affects their development and growth. In addition, chemical factors create a microenvironment that promotes the transformation of idle tumor clusters into very active, invasive tumor structures. These results collectively demonstrate the relevant regulatory role of the mechano-chemical microenvironment in leading the preferential metastasis of tumor cells to specific tissues with high collagen concentrations and TFG-β activity.https://doi.org/10.1038/s41598-018-30683-4
collection DOAJ
language English
format Article
sources DOAJ
author J. Plou
Y. Juste-Lanas
V. Olivares
C. del Amo
C. Borau
J. M. García-Aznar
spellingShingle J. Plou
Y. Juste-Lanas
V. Olivares
C. del Amo
C. Borau
J. M. García-Aznar
From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
Scientific Reports
author_facet J. Plou
Y. Juste-Lanas
V. Olivares
C. del Amo
C. Borau
J. M. García-Aznar
author_sort J. Plou
title From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
title_short From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
title_full From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
title_fullStr From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
title_full_unstemmed From individual to collective 3D cancer dissemination: roles of collagen concentration and TGF-β
title_sort from individual to collective 3d cancer dissemination: roles of collagen concentration and tgf-β
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2018-08-01
description Abstract Cancer cells have the ability to migrate from the primary (original) site to other places in the body. The extracellular matrix affects cancer cell migratory capacity and has been correlated with tissue-specific spreading patterns. However, how the matrix orchestrates these behaviors remains unclear. Here, we investigated how both higher collagen concentrations and TGF-β regulate the formation of H1299 cell (a non-small cell lung cancer cell line) spheroids within 3D collagen-based matrices and promote cancer cell invasive capacity. We show that at low collagen concentrations, tumor cells move individually and have moderate invasive capacity, whereas when the collagen concentration is increased, the formation of cell clusters is promoted. In addition, when the concentration of TGF-β in the microenvironment is lower, most of the clusters are aggregates of cancer cells with a spheroid-like morphology and poor migratory capacity. In contrast, higher concentrations of TGF-β induced the formation of clusters with a notably higher invasive capacity, resulting in clear strand-like collective cell migration. Our results show that the concentration of the extracellular matrix is a key regulator of the formation of tumor clusters that affects their development and growth. In addition, chemical factors create a microenvironment that promotes the transformation of idle tumor clusters into very active, invasive tumor structures. These results collectively demonstrate the relevant regulatory role of the mechano-chemical microenvironment in leading the preferential metastasis of tumor cells to specific tissues with high collagen concentrations and TFG-β activity.
url https://doi.org/10.1038/s41598-018-30683-4
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