牙髓细胞棒微组织的收缩动力学。

Contraction dynamics of dental pulp cell rod microtissues.

机构信息

Department of Conservative Dentistry and Periodontology, University Clinic of Dentistry, Medical University of Vienna, Sensengasse 2a, 1090, Vienna, Austria.

Austrian Cluster for Tissue Regeneration, Vienna, Austria.

出版信息

Clin Oral Investig. 2020 Feb;24(2):631-638. doi: 10.1007/s00784-019-02917-w. Epub 2019 May 21.

DOI:10.1007/s00784-019-02917-w

PMID:31115693

Abstract

OBJECTIVES

The factors that contribute to the morphological changes of dental pulp cell-derived microtissues are unknown. Here, we investigated the contraction dynamics of rod-shaped microtissues derived from dental pulp cells and examined the underlying cell signaling pathways.

METHODS

Human dental pulp cells were seeded into agarose molds to assemble into rod-shaped microtissues. Resazurin- and tetrazolium-based cytotoxicity assays, Live/Dead staining, and hematoxylin and eosin staining for histological evaluation of rods were performed. Rod contraction was evaluated and measured for a period of 10 days. The role of TGF-β, phosphoinositide 3-kinase (PI3K)/AKT, and mitogen-activated protein kinase (MAPK) signaling pathway was analyzed.

RESULTS

Dental pulp cells readily assembled into rods, maintaining the geometric shape for 48 h. Following this period, they condensed to form stable spheroidal structures that remained vital for 10 days from seeding. Inhibition of phosphoinositide 3-kinase signaling pathway by LY294002 significantly prolonged the diminution in the length of rods formed by dental pulp cells. TGF-β and pharmacological inhibition of TGF-β signaling did not show pronounced effects.

CONCLUSION

Overall, dental pulp cells readily formed rod-shaped patterns of microtissues which, over a period of time, condensed into more stable spheroidal structures. Hence, technologies like bioprinting, using direct fabrication of microtissues need to consider the contraction dynamics.

CLINICAL RELEVANCE

The field of regenerative endodontology will benefit from our findings as it can be applied as a novel platform to test the impact of pharmacological agents, biomaterials, and regenerative approaches including bioprinting.

摘要

目的

导致牙髓细胞衍生微组织形态变化的因素尚不清楚。在这里，我们研究了源自牙髓细胞的杆状微组织的收缩动力学，并研究了潜在的细胞信号通路。

方法

将人牙髓细胞接种到琼脂糖模具中，组装成杆状微组织。进行了基于 Resazurin 和四唑的细胞毒性测定、Live/Dead 染色以及用于杆状结构的组织学评估的苏木精和伊红染色。评估并测量了杆的收缩，持续 10 天。分析了转化生长因子-β（TGF-β）、磷酸肌醇 3-激酶（PI3K）/AKT 和丝裂原活化蛋白激酶（MAPK）信号通路的作用。

结果

牙髓细胞容易组装成杆状结构，在 48 小时内保持几何形状。在此期间，它们凝聚形成稳定的球形结构，从接种开始可以维持 10 天的活力。通过 LY294002 抑制磷酸肌醇 3-激酶信号通路显著延长了由牙髓细胞形成的杆状结构的长度减小。TGF-β和 TGF-β 信号的药理学抑制作用没有明显的效果。

结论

总的来说，牙髓细胞容易形成微组织的杆状模式，随着时间的推移，这些微组织凝聚成更稳定的球形结构。因此，像生物打印这样的技术，需要考虑直接制造微组织的收缩动力学。

临床意义

再生牙髓学领域将受益于我们的发现，因为它可以作为一种新的平台来测试药物制剂、生物材料和再生方法（包括生物打印）的影响。

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J Dent Res. 2018 Sep;97(10):1137-1143. doi: 10.1177/0022034518772260. Epub 2018 Apr 27.

[Experimental study on the transforming growth factor β3 combined with dental pulp stem cells in early bone integration of implant].转化生长因子β3联合牙髓干细胞促进种植体早期骨结合的实验研究

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牙髓细胞棒微组织的收缩动力学。

Contraction dynamics of dental pulp cell rod microtissues.

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

CONCLUSION

CLINICAL RELEVANCE

目的

方法

结果

结论

临床意义

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