Tissue mimetic hyaluronan bioink containing collagen fibers with controlled orientation modulating cell migration and alignment.
3D bioprinting
Cell spheroid
Chondrogenesis
Collagen hydrogel
Extracellular matrix
Hyaluronic acid
Journal
Materials today. Bio
ISSN: 2590-0064
Titre abrégé: Mater Today Bio
Pays: England
ID NLM: 101757228
Informations de publication
Date de publication:
Jun 2020
Jun 2020
Historique:
received:
07
04
2020
revised:
21
05
2020
accepted:
22
05
2020
entrez:
3
7
2020
pubmed:
3
7
2020
medline:
3
7
2020
Statut:
epublish
Résumé
Biofabrication is providing scientists and clinicians the ability to produce engineered tissues with desired shapes and gradients of composition and biological cues. Typical resolutions achieved with extrusion-based bioprinting are at the macroscopic level. However, for capturing the fibrillar nature of the extracellular matrix (ECM), it is necessary to arrange ECM components at smaller scales, down to the micron and the molecular level. Herein, we introduce a bioink containing the tyramine derivative of hyaluronan (HA; henceforth known as THA) and collagen (Col) type 1. In this bioink, similar to connective tissues, Col is present in the fibrillar form, and HA functions as a viscoelastic space filler. THA was enzymatically cross-linked under mild conditions allowing simultaneous Col fibrillogenesis, thus achieving a homogeneous distribution of Col fibrils within the viscoelastic HA-based matrix. The THA-Col composite displayed synergistic properties in terms of storage modulus and shear thinning, translating into good printability. Shear-induced alignment of the Col fibrils along the printing direction was achieved and quantified via immunofluorescence and second-harmonic generation. Cell-free and cell-laden constructs were printed and characterized, analyzing the influence of the controlled microscopic anisotropy on human bone marrow-derived mesenchymal stromal cell (hMSC) migration. Anisotropic HA-Col showed cell-instructive properties modulating hMSC adhesion, morphology, and migration from micropellets stimulated by the presence and the orientation of Col fibers. Actin filament staining showed that hMSCs embedded in aligned constructs displayed increased cytoskeleton alignment along the fibril direction. Based on gene expression of cartilage/bone markers and ECM production, hMSCs embedded in the isotropic bioink displayed chondrogenic differentiation comparable with standard pellet culture by means of proteoglycan production (safranin O staining and proteoglycan quantification). The possibility of printing matrix components with control over microscopic alignment brings biofabrication one step closer to capturing the complexity of native tissues.
Identifiants
pubmed: 32613184
doi: 10.1016/j.mtbio.2020.100058
pii: S2590-0064(20)30018-1
pii: 100058
pmc: PMC7317236
doi:
Types de publication
Journal Article
Langues
eng
Pagination
100058Informations de copyright
© 2020 The Authors.
Déclaration de conflit d'intérêts
The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
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