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@article{1371657,
author = {Anguiano, María and Castilla, Carlos and Maška, Martin and Ederra, Cristina and Peláez, Rafael and Morales, Xabier and MuñozandArrieta, Gorka and Mujika, Maite and Kozubek, Michal and MuñozandBarrutia, Arrate and Rouzaut, Ana and Arana, Sergio and GarciaandAznar, José Manuel and OrtizanddeandSolorzano, Carlos},
article_number = {2},
doi = {http://dx.doi.org/10.1371/journal.pone.0171417},
keywords = {cancer; cell migration; basement membrane; cancer invasion; hydrogel; Matrigel; microfluidic devices; cell tracking; mechanobiology},
language = {eng},
issn = {1932-6203},
journal = {PLoS ONE},
title = {Characterization of three-dimensional cancer cell migration in mixed collagen-Matrigel scaffolds using microfluidics and image analysis},
url = {http://dx.doi.org/10.1371/journal.pone.0171417},
volume = {12},
year = {2017}
}
TY - JOUR
ID - 1371657
AU - Anguiano, María - Castilla, Carlos - Maška, Martin - Ederra, Cristina - Peláez, Rafael - Morales, Xabier - Muñoz-Arrieta, Gorka - Mujika, Maite - Kozubek, Michal - Muñoz-Barrutia, Arrate - Rouzaut, Ana - Arana, Sergio - Garcia-Aznar, José Manuel - Ortiz-de-Solorzano, Carlos
PY - 2017
TI - Characterization of three-dimensional cancer cell migration in mixed collagen-Matrigel scaffolds using microfluidics and image analysis
JF - PLoS ONE
VL - 12
IS - 2
SP - 1-24
EP - 1-24
SN - 19326203
KW - cancer
KW - cell migration
KW - basement membrane
KW - cancer invasion
KW - hydrogel
KW - Matrigel
KW - microfluidic devices
KW - cell tracking
KW - mechanobiology
UR - http://dx.doi.org/10.1371/journal.pone.0171417
N2 - Microfluidic devices are becoming mainstream tools to recapitulate in vitro the behavior of cells and tissues. In this study, we use microfluidic devices filled with hydrogels of mixed collagen-Matrigel composition to study the migration of lung cancer cells under different cancer invasion microenvironments. We present the design of the microfluidic device, characterize the hydrogels morphologically and mechanically and use quantitative image analysis to measure the migration of H1299 lung adenocarcinoma cancer cells in different experimental conditions. Our results show the plasticity of lung cancer cell migration, which turns from mesenchymal in collagen only matrices, to lobopodial in collagen-Matrigel matrices that approximate the interface between a disrupted basement membrane and the underlying connective tissue. Our quantification of migration speed confirms a biphasic role of Matrigel. At low concentration, Matrigel facilitates migration, most probably by providing a supportive and growth factor retaining environment. At high concentration, Matrigel slows down migration, possibly due excessive attachment. Finally, we show that antibody-based integrin blockade promotes a change in migration phenotype from mesenchymal or lobopodial to amoeboid and analyze the effect of this change in migration dynamics, in regards to the structure of the matrix. In summary, we describe and characterize a robust microfluidic platform and a set of software tools that can be used to study lung cancer cell migration under different microenvironments and experimental conditions. This platform could be used in future studies, thus benefitting from the advantages introduced by microfluidic devices: precise control of the environment, excellent optical properties, parallelization for high throughput studies and efficient use of therapeutic drugs.
ER -
ANGUIANO, María, Carlos CASTILLA, Martin MAŠKA, Cristina EDERRA, Rafael PELÁEZ, Xabier MORALES, Gorka MUÑOZ-ARRIETA, Maite MUJIKA, Michal KOZUBEK, Arrate MUÑOZ-BARRUTIA, Ana ROUZAUT, Sergio ARANA, José Manuel GARCIA-AZNAR a Carlos ORTIZ-DE-SOLORZANO. Characterization of three-dimensional cancer cell migration in mixed collagen-Matrigel scaffolds using microfluidics and image analysis. \textit{PLoS ONE}. 2017, roč.~12, č.~2, s.~1-24. ISSN~1932-6203. Dostupné z: https://dx.doi.org/10.1371/journal.pone.0171417.
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