The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development

BACKGROUND: The use of in vitro cell cultures is a powerful tool for obtaining key insights into the behaviour and response of cells to interventions in normal and disease situations. Unlike in vivo settings, in vitro experiments allow a fine‐tuned control of a range of microenvironmental elements i...

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Autores principales: Chitty, Jessica L., Skhinas, Joanna N., Filipe, Elysse C., Wang, Shan, Cupello, Carmen Rodriguez, Grant, Rhiannon D., Yam, Michelle, Papanicolaou, Michael, Major, Gretel, Zaratzian, Anaiis, Da Silva, Andrew M., Tayao, Michael, Vennin, Claire, Timpson, Paul, Madsen, Chris D., Cox, Thomas R.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Method Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7941459/
https://www.ncbi.nlm.nih.gov/pubmed/32671954
http://dx.doi.org/10.1002/cnr2.1209
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author Chitty, Jessica L.
Skhinas, Joanna N.
Filipe, Elysse C.
Wang, Shan
Cupello, Carmen Rodriguez
Grant, Rhiannon D.
Yam, Michelle
Papanicolaou, Michael
Major, Gretel
Zaratzian, Anaiis
Da Silva, Andrew M.
Tayao, Michael
Vennin, Claire
Timpson, Paul
Madsen, Chris D.
Cox, Thomas R.
author_facet Chitty, Jessica L.
Skhinas, Joanna N.
Filipe, Elysse C.
Wang, Shan
Cupello, Carmen Rodriguez
Grant, Rhiannon D.
Yam, Michelle
Papanicolaou, Michael
Major, Gretel
Zaratzian, Anaiis
Da Silva, Andrew M.
Tayao, Michael
Vennin, Claire
Timpson, Paul
Madsen, Chris D.
Cox, Thomas R.
author_sort Chitty, Jessica L.
collection PubMed
description BACKGROUND: The use of in vitro cell cultures is a powerful tool for obtaining key insights into the behaviour and response of cells to interventions in normal and disease situations. Unlike in vivo settings, in vitro experiments allow a fine‐tuned control of a range of microenvironmental elements independently within an isolated setting. The recent expansion in the use of three‐dimensional (3D) in vitro assays has created a number of representative tools to study cell behaviour in a more physiologically 3D relevant microenvironment. Complex 3D in vitro models that can recapitulate human tissue biology are essential for understanding the pathophysiology of disease. AIM: The development of the 3D coculture collagen contraction and invasion assay, the “organotypic assay,” has been widely adopted as a powerful approach to bridge the gap between standard two‐dimensional tissue culture and in vivo mouse models. In the cancer setting, these assays can then be used to dissect how stromal cells, such as cancer‐associated fibroblasts (CAFs), drive extracellular matrix (ECM) remodelling to alter cancer cell behaviour and response to intervention. However, to date, many of the published organotypic protocols are low‐throughput, time‐consuming (up to several weeks), and work‐intensive with often limited scalability. Our aim was to develop a fast, high‐throughput, scalable 3D organotypic assay for use in oncology screening and drug development. METHODS AND RESULTS: Here, we describe a modified 96‐well organotypic assay, the “Mini‐Organo,” which can be easily completed within 5 days. We demonstrate its application in a wide range of mouse and human cancer biology approaches including evaluation of stromal cell 3D ECM remodelling, 3D cancer cell invasion, and the assessment of efficacy of potential anticancer therapeutic targets. Furthermore, the organotypic assay described is highly amenable to customisation using different cell types under diverse experimental conditions. CONCLUSIONS: The Mini‐Organo high‐throughput 3D organotypic assay allows the rapid screening of potential cancer therapeutics in human and mouse models in a time‐efficient manner.
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spelling pubmed-79414592021-05-10 The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development Chitty, Jessica L. Skhinas, Joanna N. Filipe, Elysse C. Wang, Shan Cupello, Carmen Rodriguez Grant, Rhiannon D. Yam, Michelle Papanicolaou, Michael Major, Gretel Zaratzian, Anaiis Da Silva, Andrew M. Tayao, Michael Vennin, Claire Timpson, Paul Madsen, Chris D. Cox, Thomas R. Cancer Rep (Hoboken) Method Report BACKGROUND: The use of in vitro cell cultures is a powerful tool for obtaining key insights into the behaviour and response of cells to interventions in normal and disease situations. Unlike in vivo settings, in vitro experiments allow a fine‐tuned control of a range of microenvironmental elements independently within an isolated setting. The recent expansion in the use of three‐dimensional (3D) in vitro assays has created a number of representative tools to study cell behaviour in a more physiologically 3D relevant microenvironment. Complex 3D in vitro models that can recapitulate human tissue biology are essential for understanding the pathophysiology of disease. AIM: The development of the 3D coculture collagen contraction and invasion assay, the “organotypic assay,” has been widely adopted as a powerful approach to bridge the gap between standard two‐dimensional tissue culture and in vivo mouse models. In the cancer setting, these assays can then be used to dissect how stromal cells, such as cancer‐associated fibroblasts (CAFs), drive extracellular matrix (ECM) remodelling to alter cancer cell behaviour and response to intervention. However, to date, many of the published organotypic protocols are low‐throughput, time‐consuming (up to several weeks), and work‐intensive with often limited scalability. Our aim was to develop a fast, high‐throughput, scalable 3D organotypic assay for use in oncology screening and drug development. METHODS AND RESULTS: Here, we describe a modified 96‐well organotypic assay, the “Mini‐Organo,” which can be easily completed within 5 days. We demonstrate its application in a wide range of mouse and human cancer biology approaches including evaluation of stromal cell 3D ECM remodelling, 3D cancer cell invasion, and the assessment of efficacy of potential anticancer therapeutic targets. Furthermore, the organotypic assay described is highly amenable to customisation using different cell types under diverse experimental conditions. CONCLUSIONS: The Mini‐Organo high‐throughput 3D organotypic assay allows the rapid screening of potential cancer therapeutics in human and mouse models in a time‐efficient manner. John Wiley and Sons Inc. 2019-08-01 /pmc/articles/PMC7941459/ /pubmed/32671954 http://dx.doi.org/10.1002/cnr2.1209 Text en © 2019 The Authors Cancer Reports Published by Wiley Periodicals, Inc. This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Method Report
Chitty, Jessica L.
Skhinas, Joanna N.
Filipe, Elysse C.
Wang, Shan
Cupello, Carmen Rodriguez
Grant, Rhiannon D.
Yam, Michelle
Papanicolaou, Michael
Major, Gretel
Zaratzian, Anaiis
Da Silva, Andrew M.
Tayao, Michael
Vennin, Claire
Timpson, Paul
Madsen, Chris D.
Cox, Thomas R.
The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title_full The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title_fullStr The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title_full_unstemmed The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title_short The Mini‐Organo: A rapid high‐throughput 3D coculture organotypic assay for oncology screening and drug development
title_sort mini‐organo: a rapid high‐throughput 3d coculture organotypic assay for oncology screening and drug development
topic Method Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7941459/
https://www.ncbi.nlm.nih.gov/pubmed/32671954
http://dx.doi.org/10.1002/cnr2.1209
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