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Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
by Mescola, Andrea , Trevisiol, Lorenzo , Martini, Fernanda , Mazzoni, Elisa , Nocini, Riccardo , Iaquinta, Maria Rosa , Mazziotta, Chiara , Fortini, Francesca , Barbanti-Brodano, Giovanni , Tognon, Mauro , Lanzillotti, Carmen , Alessandrini, Andrea , D’Agostino, Antonio
in Biocompatibility / Biomaterials / bone / Bone healing / Bone marrow / Cell and Developmental Biology / Cell morphology / Cell viability / Collagen / Collagen (type II) / Cytoskeleton / Electron microscopes / Enzyme-linked immunosorbent assay / expression / Gelatinase B / gene / Gene regulation / Green fluorescent protein / Hydroxyapatite / Immunohistochemistry / Laboratories / Mesenchymal stem cells / Microenvironments / Mineralization / Orthopedics / Ossification / Osteocalcin / osteogenesis / Osteopontin / Polymerase chain reaction / scaffold / Smad3 protein / Stem cells / Stromelysin 2 / Tissue engineering / Up-regulation
2021
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Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
by Mescola, Andrea , Trevisiol, Lorenzo , Martini, Fernanda , Mazzoni, Elisa , Nocini, Riccardo , Iaquinta, Maria Rosa , Mazziotta, Chiara , Fortini, Francesca , Barbanti-Brodano, Giovanni , Tognon, Mauro , Lanzillotti, Carmen , Alessandrini, Andrea , D’Agostino, Antonio
in Biocompatibility / Biomaterials / bone / Bone healing / Bone marrow / Cell and Developmental Biology / Cell morphology / Cell viability / Collagen / Collagen (type II) / Cytoskeleton / Electron microscopes / Enzyme-linked immunosorbent assay / expression / Gelatinase B / gene / Gene regulation / Green fluorescent protein / Hydroxyapatite / Immunohistochemistry / Laboratories / Mesenchymal stem cells / Microenvironments / Mineralization / Orthopedics / Ossification / Osteocalcin / osteogenesis / Osteopontin / Polymerase chain reaction / scaffold / Smad3 protein / Stem cells / Stromelysin 2 / Tissue engineering / Up-regulation
2021
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Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
by Mescola, Andrea , Trevisiol, Lorenzo , Martini, Fernanda , Mazzoni, Elisa , Nocini, Riccardo , Iaquinta, Maria Rosa , Mazziotta, Chiara , Fortini, Francesca , Barbanti-Brodano, Giovanni , Tognon, Mauro , Lanzillotti, Carmen , Alessandrini, Andrea , D’Agostino, Antonio
in Biocompatibility / Biomaterials / bone / Bone healing / Bone marrow / Cell and Developmental Biology / Cell morphology / Cell viability / Collagen / Collagen (type II) / Cytoskeleton / Electron microscopes / Enzyme-linked immunosorbent assay / expression / Gelatinase B / gene / Gene regulation / Green fluorescent protein / Hydroxyapatite / Immunohistochemistry / Laboratories / Mesenchymal stem cells / Microenvironments / Mineralization / Orthopedics / Ossification / Osteocalcin / osteogenesis / Osteopontin / Polymerase chain reaction / scaffold / Smad3 protein / Stem cells / Stromelysin 2 / Tissue engineering / Up-regulation
2021

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Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold
Journal Article

Enhanced Osteogenic Differentiation of Human Bone Marrow-Derived Mesenchymal Stem Cells by a Hybrid Hydroxylapatite/Collagen Scaffold

Mescola, Andrea,
Trevisiol, Lorenzo,
Martini, Fernanda,
Mazzoni, Elisa,
Nocini, Riccardo,
Iaquinta, Maria Rosa,
Mazziotta, Chiara,
Fortini, Francesca,
Barbanti-Brodano, Giovanni,
Tognon, Mauro,
Lanzillotti, Carmen,
Alessandrini, Andrea,
D’Agostino, Antonio
2021
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Overview
Human bone marrow-derived mesenchymal stem cells (hBMSCs) and their derivative enhanced green fluorescent protein (eGFP)-hBMSCs were employed to evaluate an innovative hybrid scaffold composed of granular hydroxylapatite and collagen hemostat (Coll/HA). The cellular morphology/cytoskeleton organization and cell viability were investigated by immunohistochemistry (IHC) and AlamarBlue metabolic assay, respectively. The expression of osteopontin and osteocalcin proteins was analyzed by IHC and ELISA, whereas osteogenic genes were investigated by quantitative PCR (Q-PCR). Cell morphology of eGFP-hBMSCs was indistinguishable from that of parental hBMSCs. The cytoskeleton architecture of hBMSCs grown on the scaffold appeared to be well organized, whereas its integrity remained uninfluenced by the scaffold during the time course. Metabolic activity measured in hBMSCs grown on a biomaterial was increased during the experiments, up to day 21 ( p < 0.05). The biomaterial induced the matrix mineralization in hBMSCs. The scaffold favored the expression of osteogenic proteins, such as osteocalcin and osteopontin. In hBMSC cultures, the scaffold induced up-regulation in specific genes that are involved in ossification process (BMP2/3, SPP1, SMAD3, and SP7), whereas they showed an up-regulation of MMP9 and MMP10, which play a central role during the skeletal development. hBMSCs were induced to chondrogenic differentiation through up-regulation of COL2A1 gene. Our experiments suggest that the innovative scaffold tested herein provides a good microenvironment for hBMSC adhesion, viability, and osteoinduction. hBMSCs are an excellent in vitro cellular model to assay scaffolds, which can be employed for bone repair and bone tissue engineering.
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Publisher
Frontiers Media SA,Frontiers Media S.A
Subject

Biocompatibility

/ Biomaterials

/ bone

/ Bone healing

/ Bone marrow

/ Cell and Developmental Biology

/ Cell morphology

/ Cell viability

/ Collagen

/ Collagen (type II)

/ Cytoskeleton

/ Electron microscopes

/ Enzyme-linked immunosorbent assay

/ expression

/ Gelatinase B

/ gene

/ Gene regulation

/ Green fluorescent protein

/ Hydroxyapatite

/ Immunohistochemistry

/ Laboratories

/ Mesenchymal stem cells

/ Microenvironments

/ Mineralization

/ Orthopedics

/ Ossification

/ Osteocalcin

/ osteogenesis

/ Osteopontin

/ Polymerase chain reaction

/ scaffold

/ Smad3 protein

/ Stem cells

/ Stromelysin 2

/ Tissue engineering

/ Up-regulation

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