肝细胞生长因子促进乳头尖部人类干细胞的分化潜能和应激反应

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-01-01 Epub Date: 2022-09-28 DOI:10.1159/000527212
Zhenhai Liu, Na Yan, Ying Chen, Bin Hu
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引用次数: 0

摘要

恶劣的局部微环境,如缺氧和缺乏对移植干细胞的指导线索,严重阻碍了干细胞疗法的疗效。因此,人们一直在努力提高干细胞的活力和可塑性。肝细胞生长因子(HGF)曾在动物模型研究和一些临床试验中被报道可减轻各种人类疾病的并发症。此外,与来自其他牙科资源的干细胞相比,来自根尖乳头(SCAP)的人类干细胞具有更强的体外扩增能力,因此被认为是更好的间充质干细胞资源。为了向前迈进,需要评估HGF对SCAP的影响并了解其潜在的分子机制,以促进牙周再生。本研究在 SCAP 中转基因表达了 HGF,结果发现,在异位矿化模型中,与未处理的对照组相比,HGF 增强了 SCAP 的成骨/成牙分化能力。此外,在常氧和缺氧条件下,HGF 都能减少 SCAP 的细胞凋亡,而在为期八天的体外培养过程中,HGF 和缺氧的结合对细胞增殖有抑制作用。转录组分析进一步显示,HGF过表达时,细胞周期进展受抑制,BMP/TGFβ、Hedgehog、WNT、FGF、HOX和其他形态发生家族成员被激活,这可能使SCAP再现了神经嵴干细胞的部分特征。此外,加强应激反应调控,如未折叠蛋白反应、大自噬和抗凋亡分子,可能是SCAP活力增强的原因。总之,我们的研究结果表明,HGF促进SCAP分化的这些潜在机制可被进一步阐明和利用,以改善牙组织再生。
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Hepatocyte Growth Factor Promotes Differentiation Potential and Stress Response of Human Stem Cells from Apical Papilla.

Harsh local microenvironment, such as hypoxia and lack of instructive clues for transplanted stem cells, presents the serious obstacle for stem cell therapies' efficacy. Therefore, continued efforts have been taken to improve stem cells' viability and plasticity. Hepatocyte growth factor (HGF) has previously been reported to mitigate the complications of various human diseases in animal model studies and in some clinical trials. Besides, human stem cells from the root apical papilla (SCAP) are deemed a better resource of mesenchymal stem cells due to derived stem cells holding greater amplification ability in vitro compared with those from other dental resources. To move forward, evaluating effects and understanding underlying molecular mechanisms of HGF on SCAP for periodontal regeneration are needed. In this study, HGF was transgenically expressed in SCAP, and it was found that HGF enhanced osteo/dentinogenic differentiation capacity of SCAP compared with those of non-treated control in an ectopic mineralization model. Moreover, HGF reduced the apoptosis of SCAP under both normoxic and hypoxic conditions, whereas the combination of HGF and hypoxia exposure had inhibitory effects on cell proliferation during an 8-day in vitro culture period. Transcriptome analysis further revealed that suppressed cell cycle progression and activated BMP/TGFβ, Hedgehog, WNT, FGF, HOX, and other morphogen family members result upon HGF overexpression, which may render SCAP recapitulate part of neural crest stem cell characteristics. Moreover, strengthened stress response modulation such as unfolded protein response, macroautophagy, and anti-apoptotic molecules might explain the increased viability of SCAP. In all, our results imply that these potential mechanisms underlying HGF-promoting SCAP differentiation could be further elucidated and harnessed to improve periodontal tissue regeneration.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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