Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels

Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels

Breast tissue consists of an epithelial parenchyma embedded in stroma, of heterogeneous and complex composition, undergoing several morphological and functional alterations throughout females' lifespan. Improved knowledge on the crosstalk between parenchymal and stromal mammary cells should pro...

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Main Authors: Patrícia Barros da Silva, Mariana Coelho, Sílvia Joana Bidarra, Sara Carvalheira Neves, Cristina Carvalho Barrias
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-06-01
Series:Frontiers in Bioengineering and Biotechnology
Subjects:
3D model
hydrogel
3D printing
stroma
parenchyma
epithelial morphogenesis
Online Access:https://www.frontiersin.org/article/10.3389/fbioe.2020.00494/full
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spelling doaj-ffe49e69c5c84563b136d58094a57b9b2020-11-25T03:17:03ZengFrontiers Media S.A.Frontiers in Bioengineering and Biotechnology2296-41852020-06-01810.3389/fbioe.2020.00494519362Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed HydrogelsPatrícia Barros da Silva0Patrícia Barros da Silva1Patrícia Barros da Silva2Mariana Coelho3Mariana Coelho4Mariana Coelho5Sílvia Joana Bidarra6Sílvia Joana Bidarra7Sílvia Joana Bidarra8Sara Carvalheira Neves9Sara Carvalheira Neves10Sara Carvalheira Neves11Cristina Carvalho Barrias12Cristina Carvalho Barrias13Cristina Carvalho Barrias14i3S—Instituto de Inovação e Investigação em Saúde, Porto, PortugalINEB—Instituto de Engenharia Biomédica, Universidade do Porto, Porto, PortugalFEUP—Faculdade de Engenharia, Universidade do Porto, Porto, Portugali3S—Instituto de Inovação e Investigação em Saúde, Porto, PortugalINEB—Instituto de Engenharia Biomédica, Universidade do Porto, Porto, PortugalICBAS—Instituto de Ciências Biomédicas Abel Salazar, Universidade do Porto, Porto, Portugali3S—Instituto de Inovação e Investigação em Saúde, Porto, PortugalINEB—Instituto de Engenharia Biomédica, Universidade do Porto, Porto, PortugalICBAS—Instituto de Ciências Biomédicas Abel Salazar, Universidade do Porto, Porto, Portugali3S—Instituto de Inovação e Investigação em Saúde, Porto, PortugalINEB—Instituto de Engenharia Biomédica, Universidade do Porto, Porto, PortugalFEUP—Faculdade de Engenharia, Universidade do Porto, Porto, Portugali3S—Instituto de Inovação e Investigação em Saúde, Porto, PortugalINEB—Instituto de Engenharia Biomédica, Universidade do Porto, Porto, PortugalICBAS—Instituto de Ciências Biomédicas Abel Salazar, Universidade do Porto, Porto, PortugalBreast tissue consists of an epithelial parenchyma embedded in stroma, of heterogeneous and complex composition, undergoing several morphological and functional alterations throughout females' lifespan. Improved knowledge on the crosstalk between parenchymal and stromal mammary cells should provide important insights on breast tissue dynamics, both under healthy and diseased states. Here, we describe an advanced 3D in vitro model of breast tissue, combining multiple components, namely stromal cells and their extracellular matrix (ECM), as well as parenchymal epithelial cells, in a hybrid system. To build the model, porous scaffolds were produced by extrusion 3D printing of peptide-modified alginate hydrogels, and then populated with human mammary fibroblasts. Seeded fibroblasts were able to adhere, spread and produce endogenous ECM, providing adequate coverage of the scaffold surface, without obstructing the pores. On a second stage, a peptide-modified alginate pre-gel laden with mammary gland epithelial cells was used to fill the scaffold's pores, forming a hydrogel in situ by ionic crosslinking. Throughout time, epithelial cells formed prototypical mammary acini-like structures, in close proximity with fibroblasts and their ECM. This generated a heterotypic 3D model that partially recreates both stromal and parenchymal compartments of breast tissue, promoting cell-cell and cell-matrix crosstalk. Furthermore, the hybrid system could be easily dissolved for cell recovery and subsequent analysis by standard cellular/molecular assays. In particular, we show that retrieved cell populations could be discriminated by flow cytometry using cell-type specific markers. This integrative 3D model stands out as a promising in vitro platform for studying breast stroma-parenchyma interactions, both under physiological and pathological settings.https://www.frontiersin.org/article/10.3389/fbioe.2020.00494/full3D modelhydrogel3D printingstromaparenchymaepithelial morphogenesis
collection DOAJ
language English
format Article
sources DOAJ
author Patrícia Barros da Silva
Patrícia Barros da Silva
Patrícia Barros da Silva
Mariana Coelho
Mariana Coelho
Mariana Coelho
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sara Carvalheira Neves
Sara Carvalheira Neves
Sara Carvalheira Neves
Cristina Carvalho Barrias
Cristina Carvalho Barrias
Cristina Carvalho Barrias
spellingShingle Patrícia Barros da Silva
Patrícia Barros da Silva
Patrícia Barros da Silva
Mariana Coelho
Mariana Coelho
Mariana Coelho
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sara Carvalheira Neves
Sara Carvalheira Neves
Sara Carvalheira Neves
Cristina Carvalho Barrias
Cristina Carvalho Barrias
Cristina Carvalho Barrias
Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
Frontiers in Bioengineering and Biotechnology
3D model
hydrogel
3D printing
stroma
parenchyma
epithelial morphogenesis
author_facet Patrícia Barros da Silva
Patrícia Barros da Silva
Patrícia Barros da Silva
Mariana Coelho
Mariana Coelho
Mariana Coelho
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sílvia Joana Bidarra
Sara Carvalheira Neves
Sara Carvalheira Neves
Sara Carvalheira Neves
Cristina Carvalho Barrias
Cristina Carvalho Barrias
Cristina Carvalho Barrias
author_sort Patrícia Barros da Silva
title Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
title_short Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
title_full Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
title_fullStr Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
title_full_unstemmed Reshaping in vitro Models of Breast Tissue: Integration of Stromal and Parenchymal Compartments in 3D Printed Hydrogels
title_sort reshaping in vitro models of breast tissue: integration of stromal and parenchymal compartments in 3d printed hydrogels
publisher Frontiers Media S.A.
series Frontiers in Bioengineering and Biotechnology
issn 2296-4185
publishDate 2020-06-01
description Breast tissue consists of an epithelial parenchyma embedded in stroma, of heterogeneous and complex composition, undergoing several morphological and functional alterations throughout females' lifespan. Improved knowledge on the crosstalk between parenchymal and stromal mammary cells should provide important insights on breast tissue dynamics, both under healthy and diseased states. Here, we describe an advanced 3D in vitro model of breast tissue, combining multiple components, namely stromal cells and their extracellular matrix (ECM), as well as parenchymal epithelial cells, in a hybrid system. To build the model, porous scaffolds were produced by extrusion 3D printing of peptide-modified alginate hydrogels, and then populated with human mammary fibroblasts. Seeded fibroblasts were able to adhere, spread and produce endogenous ECM, providing adequate coverage of the scaffold surface, without obstructing the pores. On a second stage, a peptide-modified alginate pre-gel laden with mammary gland epithelial cells was used to fill the scaffold's pores, forming a hydrogel in situ by ionic crosslinking. Throughout time, epithelial cells formed prototypical mammary acini-like structures, in close proximity with fibroblasts and their ECM. This generated a heterotypic 3D model that partially recreates both stromal and parenchymal compartments of breast tissue, promoting cell-cell and cell-matrix crosstalk. Furthermore, the hybrid system could be easily dissolved for cell recovery and subsequent analysis by standard cellular/molecular assays. In particular, we show that retrieved cell populations could be discriminated by flow cytometry using cell-type specific markers. This integrative 3D model stands out as a promising in vitro platform for studying breast stroma-parenchyma interactions, both under physiological and pathological settings.
topic 3D model
hydrogel
3D printing
stroma
parenchyma
epithelial morphogenesis
url https://www.frontiersin.org/article/10.3389/fbioe.2020.00494/full
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