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A novel electrospinning method for self-assembled tree-like fibrous scaffolds: Microenvironment-associated regulation of MSC behavior and bone regeneration

Jeong In Kim, Ju Yeon Kim, Sung‐Ho Kook, Jeong‐Chae Lee

2022Journal of Material Science and Technology20 citationsDOIOpen Access PDF

Abstract

Numerous studies highlight advantages of electrospun scaffolds in bone tissue engineering, in which cellular behavior is tightly affected by fiber topographical cues of scaffolds. However, the classic electrospinning setup limits a desired presentation of biomimetic fibrous microenvironments that sense mechanosignaling and regulate stem cell behavior. The aims of this study were to fabricate advanced as-spun scaffolds presenting tree-like microfiber/nanonet networks and to evaluate their regulatory potentials on behavior of human mesenchymal stem cells (hMSCs) and bone regeneration. Here we developed a novel electrospinning setup that allowed the presentation of patterned Trunk microfibers (TMF) and/or branched nanonet fibers (BNnFs) in biomimetic fibrous scaffolds. As the cellular mechanisms, anisotropic-hierarchical topography of TMF controlled behavior of hMSCs through focal adhesion formation and Yes-associated protein (YAP) induction, whereas BNnF disturbed such mechanosensing responses in the cells. The fiber microenvironment-related expression and nuclear localization of YAP were. also correlated with the potentials of as-spun scaffolds to enhance osteogenic differentiation of the hMSCs and alveolar bone defect healing in an animal model. Collectively, this study provides an advanced approach of the modified electrospinning setup for presentation of biomimetic fibrillar microenvironments in as-spun scaffolds along with their application in stem cell behavior regulation and regenerative tissue engineering.

Topics & Concepts

ElectrospinningMicrofiberMaterials scienceMesenchymal stem cellTissue engineeringRegeneration (biology)NanotechnologyNanofiberFiberBiomedical engineeringCell biologyBiologyComposite materialPolymerEngineeringElectrospun Nanofibers in Biomedical ApplicationsTissue Engineering and Regenerative MedicineSilk-based biomaterials and applications
A novel electrospinning method for self-assembled tree-like fibrous scaffolds: Microenvironment-associated regulation of MSC behavior and bone regeneration | Litcius