在可调谐聚乙二醇-纤维蛋白原水凝胶系统中对牙髓干细胞牙发生的调控

Modulation of Dental Pulp Stem Cell Odontogenesis in a Tunable PEG-Fibrinogen Hydrogel System.

作者信息

Lu Qiqi, Pandya Mirali, Rufaihah Abdul Jalil, Rosa Vinicius, Tong Huei Jinn, Seliktar Dror, Toh Wei Seong

机构信息

Faculty of Dentistry, National University of Singapore, 11 Lower Kent Ridge Road, Singapore 119083.

Department of Surgery, Yong Loo Lin School of Medicine, National University Health System, National University of Singapore, 1E Kent Ridge Road, Singapore 119288.

出版信息

Stem Cells Int. 2015;2015:525367. doi: 10.1155/2015/525367. Epub 2015 Jun 1.

DOI:10.1155/2015/525367

PMID:26124841

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4466494/

Abstract

Injectable hydrogels have the great potential for clinical translation of dental pulp regeneration. A recently developed PEG-fibrinogen (PF) hydrogel, which comprises a bioactive fibrinogen backbone conjugated to polyethylene glycol (PEG) side chains, can be cross-linked after injection by photopolymerization. The objective of this study was to investigate the use of this hydrogel, which allows tuning of its mechanical properties, as a scaffold for dental pulp tissue engineering. The cross-linking degree of PF hydrogels could be controlled by varying the amounts of PEG-diacrylate (PEG-DA) cross-linker. PF hydrogels are generally cytocompatible with the encapsulated dental pulp stem cells (DPSCs), yielding >85% cell viability in all hydrogels. It was found that the cell morphology of encapsulated DPSCs, odontogenic gene expression, and mineralization were strongly modulated by the hydrogel cross-linking degree and matrix stiffness. Notably, DPSCs cultured within the highest cross-linked hydrogel remained mostly rounded in aggregates and demonstrated the greatest enhancement in odontogenic gene expression. Consistently, the highest degree of mineralization was observed in the highest cross-linked hydrogel. Collectively, our results indicate that PF hydrogels can be used as a scaffold for DPSCs and offers the possibility of influencing DPSCs in ways that may be beneficial for applications in regenerative endodontics.

摘要

可注射水凝胶在牙髓再生的临床转化方面具有巨大潜力。最近开发的聚乙二醇 - 纤维蛋白原（PF）水凝胶，其包含与聚乙二醇（PEG）侧链共轭的生物活性纤维蛋白原主链，可在注射后通过光聚合进行交联。本研究的目的是研究这种能够调节其机械性能的水凝胶作为牙髓组织工程支架的用途。PF水凝胶的交联度可通过改变聚乙二醇二丙烯酸酯（PEG - DA）交联剂的用量来控制。PF水凝胶通常与封装的牙髓干细胞（DPSC）具有细胞相容性，在所有水凝胶中细胞活力均大于85％。研究发现，封装的DPSC的细胞形态、牙源性基因表达和矿化受到水凝胶交联度和基质硬度的强烈调节。值得注意的是，在交联程度最高的水凝胶中培养的DPSC大多保持聚集的圆形，并表现出牙源性基因表达的最大增强。同样，在交联程度最高的水凝胶中观察到最高程度的矿化。总体而言，我们的结果表明PF水凝胶可作为DPSC的支架，并提供了以可能有利于再生牙髓治疗应用的方式影响DPSC的可能性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d568/4466494/3a8b1002cc76/SCI2015-525367.001.jpg

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在可调谐聚乙二醇-纤维蛋白原水凝胶系统中对牙髓干细胞牙发生的调控

Modulation of Dental Pulp Stem Cell Odontogenesis in a Tunable PEG-Fibrinogen Hydrogel System.

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