牙髓再生管模型中 DPSC-ECs 的血管新生研究。

Journal of dental research Pub Date : 2024-06-01 Epub Date: 2024-05-08 DOI:10.1177/00220345241236392
Y Zhang, J Liu, I J de Souza Araujo, L Bahammam, L L Munn, G T J Huang
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引用次数: 0

摘要

基于细胞的牙髓再生过程中的血管新生过程很难研究。在此,我们开发了一种模拟根管空间的试管模型,可直接观察体外血管化过程。我们使用的内皮样细胞(ECs)来源于表达内皮细胞标记CD144、vWF、VEGFR1和VEGFR2的引导性人类牙髓干细胞(DPSCs)。人微血管内皮细胞(hMVECs)作为阳性对照。DPSC-ECs 在 Matrigel 上形成的小管与 hMVECs 相似。将细胞与纤维蛋白原/凝血酶原或小鼠血液混合,然后播种到 96 孔板的孔中,或注射到锥形塑料管(长 14 毫米,顶端开口直径 1 或 2 毫米)中,大端用 MTA 密封,以模拟根管空间。将孔或管中的细胞/凝胶在体外培养不同时间,并在显微镜下观察形态变化。然后将样本固定并进行组织学分析,以确定血管的形成。在细胞播种后 1 到 3 d 的培养过程中可观察到血管样网络。从组织学角度看,96 孔板或管中的 hMVEC 和 DPSC-EC 都显示出细胞内空泡的形成。一些细胞显示出合并的大液泡,这表明细胞有腔化。还观察到类似血管的管状结构。除了冠状三分之一处的一些样本(顶端直径 1 毫米)外,整个管内的细胞看起来都很健康。hMVECs 形成的血管腔比 DPSC-ECs 大,而后者的管腔和管状结构数量更多。我们的结论是,DPSC-ECs 可在体外三维纤维蛋白凝胶系统中形成血管结构并持续生长。该管状模型似乎是模拟根管空间进行血管形成和牙髓再生研究的一个适当而简单的系统。
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Neovascularization by DPSC-ECs in a Tube Model for Pulp Regeneration Study.

The process of neovascularization during cell-based pulp regeneration is difficult to study. Here we developed a tube model that simulates root canal space and allows direct visualization of the vascularization process in vitro. Endothelial-like cells (ECs) derived from guiding human dental pulp stem cells (DPSCs) into expressing endothelial cell markers CD144, vWF, VEGFR1, and VEGFR2 were used. Human microvascular endothelial cells (hMVECs) were used as a positive control. DPSC-ECs formed tubules on Matrigel similar to hMVECs. Cells were mixed in fibrinogen/thrombin or mouse blood and seeded into wells of 96-well plates or injected into a tapered plastic tube (14 mm in length and 1 or 2 mm diameter of the apex opening) with the larger end sealed with MTA to simulate root canal space. Cells/gels in wells or tubes were incubated for various times in vitro and observed under the microscope for morphological changes. Samples were then fixed and processed for histological analysis to determine vessel formation. Vessel-like networks were observed in culture from 1 to 3 d after cell seeding. Cells/gels in 96-well plates were maintained up to 25 d. Histologically, both hMVECs and DPSC-ECs in 96-well plates or tubes showed intracellular vacuole formation. Some cells showed merged large vacuoles indicating the lumenization. Tubular structures were also observed resembling blood vessels. Cells appeared healthy throughout the tube except some samples (1 mm apical diameter) in the coronal third. Histological analysis also showed pulp-like soft tissue throughout the tube samples with vascular-like structures. hMVECs formed larger vascular lumen size than DPSC-ECs while the latter tended to have more lumen and tubular structure counts. We conclude that DPSC-ECs can form vascular structures and sustained in the 3-dimensional fibrin gel system in vitro. The tube model appears to be a proper and simple system simulating the root canal space for vascular formation and pulp regeneration studies.

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