Notch 依赖性激活牙周细胞的成骨潜能

Д. С. Семенова, А. С. Костина, А. М. Мустаева, П. Е. Клаузен, М. А. Добрынин, Н. В. Боярская, Ю. А. Домбровская, Анна Борисовна Малашичева, Н. И. Енукашвили
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摘要

背景和目的 .牙周干细胞是牙科和颌面外科的一种有前途的材料。在这项工作中,我们试图找出 Notch 信号通路如何影响牙周韧带干细胞(PDLSC)的成骨潜能。设计与方法为了验证这一点,我们使用慢病毒转导牙周韧带干细胞,加入不同量的带有 Notch1 受体活化胞内结构域 NICD 的病毒。在诱导成骨分化 48 小时和 120 小时后,我们利用实时 PCR 分析了在分化早期阶段,骨标志物(RUNX2、COL1A1、OGN、POSTN)表达水平的变化对 Notch 信号通路激活强度的依赖性。此外,我们还利用茜素红提取技术量化了牙周间充质干细胞在成骨分化最后阶段的矿化强度。结果 .我们发现,在成骨分化诱导的早期阶段,Notch 信号通路的激活会导致成骨标志物的表达增加,进而导致以形成钙化为特征的成骨分化最后阶段的发展。此外,Notch 的初始水平越高,成骨过程就越强、越有效。结论在这项研究中,我们发现 Notch 信号通路的激活以剂量依赖的方式增加了牙周 PDLSC 的成骨潜能,并诱导了与钙化积累相关的细胞过程,钙化形成的强度直接取决于 Notch 信号的 "强度"。这项研究的结果使我们相信,Notch 能够调节成骨分化,影响其有效性,这显然是由于传递给细胞的信号的强度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Notch-зависимая активация остеогенного потенциала клеток периодонта
Background and objective . Periodontal stem cells are a promising material for dentistry and maxillofacial surgery. In this work, we sought to find out how Notch signaling pathway affects the osteogenic potential of periodontal ligament stem cells (PDLSC). Design and methods . In order to verify this, we used lentiviral transduction of PDLSC, adding various amounts of the virus bearing the activated intracellular domain of the Notch1 receptor, NICD. Using real-time PCR, we analyzed the dependence of changes in the expression levels of osteo-markers ( RUNX2, COL1A1, OGN, POSTN ) on the activation strength of Notch signaling pathway, based on the expression of the target gene — HEY1 , in the early stages of differentiation, after 48 and 120 hours after induction of osteogenic differentiation. In addition, using the technique of Alizarin red extraction, we were able to quantify the intensity of mineralization of periodontal MSCs at the final stage of osteogenic differentiation. Results . We found that activation of Notch signaling pathway leads to increased expression of osteogenic markers in the early stages of osteogenic differentiation induction, which in turn leads to the development of the final stage of osteogenic differentiation, characterized by the formation of calcification. Moreover, the more intensive the initial level of Notch, the stronger and more effective were the processes of osteogenesis. Conclusion . In this work, we showed that activation of Notch signaling pathway leads to an increase in the osteogenic potential of periodontal PDLSC in a dose-dependent manner and induces in the cells processes associated with the accumulation of calcifications, the intensity of formation of which directly depends on the “strength” of Notch signal. The results obtained in this work convince us that Notch is able to modulate osteogenic differentiation, affecting its effectiveness, apparently due to the strength of the signal that is transmitted to the cells.
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