Literature DB >> 29663702

Assembly of PEG Microgels into Porous Cell-Instructive 3D Scaffolds via Thiol-Ene Click Chemistry.

Shangjing Xin1, Omar M Wyman1, Daniel L Alge1,2.   

Abstract

The assembly of microgel building blocks into 3D scaffolds is an emerging strategy for tissue engineering. A key advantage is that the inherent microporosity of these scaffolds provides cells with a more permissive environment than conventional nanoporous hydrogels. Here, norbornene-bearing poly(ethylene glycol) (PEG) based microgels are assembled into 3D cell-instructive scaffolds using a PEG-dithiol linker and thiol-ene click photopolymerization. The bulk modulus of these materials depends primarily on the crosslink density of the microgel building blocks. However, the linker and initiator concentrations used during assembly have significant effects on cell spreading and proliferation when human mesenchymal stem cells (hMSCs) are incorporated in the scaffolds. The cell response is also affected by the properties of the modular microgel building blocks, as hMSCs growing in scaffolds assembled from stiff but not soft microgels activate Yes-associated protein signaling. These results indicate that PEG microgel scaffolds assembled via thiol-ene click chemistry can be engineered to provide a cell-instructive 3D milieu, making them a promising 3D platform for tissue engineering.
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  PEG; cell instructive; mesenchymal stem cells; microgel; thiol-ene

Mesh:

Substances:

Year:  2018        PMID: 29663702      PMCID: PMC6262827          DOI: 10.1002/adhm.201800160

Source DB:  PubMed          Journal:  Adv Healthc Mater        ISSN: 2192-2640            Impact factor:   9.933


  33 in total

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4.  Design of electrohydrodynamic sprayed polyethylene glycol hydrogel microspheres for cell encapsulation.

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5.  Sequential Thiol-Ene and Tetrazine Click Reactions for the Polymerization and Functionalization of Hydrogel Microparticles.

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6.  Dimensionality and spreading influence MSC YAP/TAZ signaling in hydrogel environments.

Authors:  Steven R Caliari; Sebastián L Vega; Michelle Kwon; Elizabeth M Soulas; Jason A Burdick
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7.  Planar and tubular patterning of micro and nano-topographies on poly(vinyl alcohol) hydrogel for improved endothelial cell responses.

Authors:  Marie F A Cutiongco; Seok Hong Goh; Rachida Aid-Launais; Catherine Le Visage; Hong Yee Low; Evelyn K F Yim
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8.  Clickable Microgel Scaffolds as Platforms for 3D Cell Encapsulation.

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9.  A Versatile Synthetic Extracellular Matrix Mimic via Thiol-Norbornene Photopolymerization.

Authors:  Benjamin D Fairbanks; Michael P Schwartz; Alexandra E Halevi; Charles R Nuttelman; Christopher N Bowman; Kristi S Anseth
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10.  Thiol-ene photopolymerizations provide a facile method to encapsulate proteins and maintain their bioactivity.

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2.  Injectable Macroporous Hydrogel Formed by Enzymatic Cross-Linking of Gelatin Microgels.

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7.  Aqueous Two-Phase Emulsion Bioink-Enabled 3D Bioprinting of Porous Hydrogels.

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8.  Interplay between degradability and integrin signaling on mesenchymal stem cell function within poly(ethylene glycol) based microporous annealed particle hydrogels.

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Review 9.  Droplet microfluidic devices for organized stem cell differentiation into germ cells: capabilities and challenges.

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10.  Designing Microgels for Cell Culture and Controlled Assembly of Tissue Microenvironments.

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