Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar

Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar

Glial scars are widely seen as a (bio)mechanical barrier to central nervous system regeneration. Due to the lack of a screening platform, which could allow in-vitro testing of several variables simultaneously, up to now no comprehensive study has addressed and clarified how different lesion microenv...

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Main Authors: Daniela Nogueira Rocha, José eFerraz-Nogueira, Cristina Carvalho Barrias, João Bettencourt Relvas, Ana Paula ePêgo
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-09-01
Series:Frontiers in Cellular Neuroscience
Subjects:
Astrocytes
Extracellular Matrix
Tissue Engineering
RhoA
Mechanotransduction
Biomaterials
Online Access:http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00377/full
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spelling doaj-f84c8d58b6264c879ac70e039beadba82020-11-25T00:53:37ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022015-09-01910.3389/fncel.2015.00377151166Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial ScarDaniela Nogueira Rocha0Daniela Nogueira Rocha1Daniela Nogueira Rocha2José eFerraz-Nogueira3José eFerraz-Nogueira4Cristina Carvalho Barrias5Cristina Carvalho Barrias6João Bettencourt Relvas7João Bettencourt Relvas8Ana Paula ePêgo9Ana Paula ePêgo10Ana Paula ePêgo11Ana Paula ePêgo12INEB - Instituto de Engenharia BiomédicaFEUP - Faculdade de Engenharia da Universidade do PortoI3S - Instituto de Inovação e Investigação em SaúdeIBMC - Instituto de Biologia Molecular e CelularI3S - Instituto de Inovação e Investigação em SaúdeINEB - Instituto de Engenharia BiomédicaI3S - Instituto de Inovação e Investigação em SaúdeIBMC - Instituto de Biologia Molecular e CelularI3S - Instituto de Inovação e Investigação em SaúdeINEB - Instituto de Engenharia BiomédicaICBAS - Instituto de Ciências Biomédicas Abel SalazarFEUP - Faculdade de Engenharia da Universidade do PortoI3S - Instituto de Inovação e Investigação em SaúdeGlial scars are widely seen as a (bio)mechanical barrier to central nervous system regeneration. Due to the lack of a screening platform, which could allow in-vitro testing of several variables simultaneously, up to now no comprehensive study has addressed and clarified how different lesion microenvironment properties affect astrogliosis. Using astrocytes cultured in alginate gels and meningeal fibroblast conditioned medium, we have built a simple and reproducible 3D culture system of astrogliosis mimicking many features of the glial scar. Cells in this 3D culture model behave similarly to scar astrocytes, showing changes in gene expression (e.g. GFAP) and increased extra-cellular matrix production (chondroitin 4-sulphate and collagen), inhibiting neuronal outgrowth. This behavior being influenced by the hydrogel network properties. Astrocytic reactivity was found to be dependent on RhoA activity, and targeting RhoA using shRNA-mediated lentivirus reduced astrocytic reactivity. Further, we have shown that chemical inhibition of RhoA with ibuprofen or indirectly targeting RhoA by the induction of extracellular matrix composition modification with chondroitinase ABC, can diminish astrogliosis.Besides presenting the extracellular matrix as a key modulator of astrogliosis, this simple, controlled and reproducible 3D culture system constitutes a good scar-like system and offers great potential in future neurodegenerative mechanism studies.http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00377/fullAstrocytesExtracellular MatrixTissue EngineeringRhoAMechanotransductionBiomaterials
collection DOAJ
language English
format Article
sources DOAJ
author Daniela Nogueira Rocha
Daniela Nogueira Rocha
Daniela Nogueira Rocha
José eFerraz-Nogueira
José eFerraz-Nogueira
Cristina Carvalho Barrias
Cristina Carvalho Barrias
João Bettencourt Relvas
João Bettencourt Relvas
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
spellingShingle Daniela Nogueira Rocha
Daniela Nogueira Rocha
Daniela Nogueira Rocha
José eFerraz-Nogueira
José eFerraz-Nogueira
Cristina Carvalho Barrias
Cristina Carvalho Barrias
João Bettencourt Relvas
João Bettencourt Relvas
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
Frontiers in Cellular Neuroscience
Astrocytes
Extracellular Matrix
Tissue Engineering
RhoA
Mechanotransduction
Biomaterials
author_facet Daniela Nogueira Rocha
Daniela Nogueira Rocha
Daniela Nogueira Rocha
José eFerraz-Nogueira
José eFerraz-Nogueira
Cristina Carvalho Barrias
Cristina Carvalho Barrias
João Bettencourt Relvas
João Bettencourt Relvas
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
Ana Paula ePêgo
author_sort Daniela Nogueira Rocha
title Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
title_short Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
title_full Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
title_fullStr Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
title_full_unstemmed Extracellular Environment Contribution to Astrogliosis – Lessons learned from a Tissue Engineered 3D Model of the Glial Scar
title_sort extracellular environment contribution to astrogliosis – lessons learned from a tissue engineered 3d model of the glial scar
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2015-09-01
description Glial scars are widely seen as a (bio)mechanical barrier to central nervous system regeneration. Due to the lack of a screening platform, which could allow in-vitro testing of several variables simultaneously, up to now no comprehensive study has addressed and clarified how different lesion microenvironment properties affect astrogliosis. Using astrocytes cultured in alginate gels and meningeal fibroblast conditioned medium, we have built a simple and reproducible 3D culture system of astrogliosis mimicking many features of the glial scar. Cells in this 3D culture model behave similarly to scar astrocytes, showing changes in gene expression (e.g. GFAP) and increased extra-cellular matrix production (chondroitin 4-sulphate and collagen), inhibiting neuronal outgrowth. This behavior being influenced by the hydrogel network properties. Astrocytic reactivity was found to be dependent on RhoA activity, and targeting RhoA using shRNA-mediated lentivirus reduced astrocytic reactivity. Further, we have shown that chemical inhibition of RhoA with ibuprofen or indirectly targeting RhoA by the induction of extracellular matrix composition modification with chondroitinase ABC, can diminish astrogliosis.Besides presenting the extracellular matrix as a key modulator of astrogliosis, this simple, controlled and reproducible 3D culture system constitutes a good scar-like system and offers great potential in future neurodegenerative mechanism studies.
topic Astrocytes
Extracellular Matrix
Tissue Engineering
RhoA
Mechanotransduction
Biomaterials
url http://journal.frontiersin.org/Journal/10.3389/fncel.2015.00377/full
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