Differentiation of Human-induced Pluripotent Stem Cell-derived Dental Stem Cells through Epithelial-Mesenchymal Interaction.

Stem cells and development Pub Date : 2024-04-01 Epub Date: 2024-03-21 DOI:10.1089/scd.2023.0220
Ji-Hye Kim, Jihye Yang, Min-Gi Ki, Dae Hyun Jeon, Jae-Won Kim, Mi Jang, Gene Lee
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Abstract

Research on tooth regeneration using human-induced pluripotent stem cells (hiPSCs) is valuable for autologous dental regeneration. Acquiring mesenchymal and epithelial cells as a resource for dental regeneration is necessary because mesenchymal-epithelial interactions play an essential role in dental development. We reported the establishment of hiPSCs-derived dental epithelial-like cell (EPI-iPSCs), but hiPSCs-derived dental mesenchymal stem cells (MSCs) have not yet been reported. This study was conducted to establish hiPSCs-derived MSCs and to differentiate them into dental cells with EPI-iPSCs. Considering that dental MSCs are derived from the neural crest, hiPSCs were induced to differentiate into MSCs through neural crest formation to acquire the properties of dental MSCs. To differentiate hiPSCs into MSCs through neural crest formation, established hiPSCs were cultured and differentiated with PA6 stromal cells and differentiated hiPSCs formed neurospheres on ultralow-attachment plates. Neurospheres were differentiated into MSCs in serum-supplemented medium. Neural crest-mediated MSCs (NC-MSCs) continuously showed typical MSC morphology and expressed MSC markers. After 8 days of odontogenic induction, the expression levels of odontogenic/mineralization-related genes and dentin sialophosphoprotein (DSPP) proteins were increased in the NC-MSCs alone group in the absence of coculturing with dental epithelial cells. The NC-MSCs and EPI-iPSCs coculture groups showed high expression levels of amelogenesis/odontogenic/mineralization-related genes and DSPP proteins. Furthermore, the NC-MSCs and EPI-iPSCs coculture group yielded calcium deposits earlier than the NC-MSCs alone group. These results indicated that established NC-MSCs from hiPSCs have dental differentiation capacity with dental epithelial cells. In addition, it was confirmed that hiPSCs-derived dental stem cells could be a novel cell source for autologous dental regeneration.

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通过上皮-间质相互作用分化人类诱导多能干细胞衍生的牙科干细胞。
利用人体诱导多能干细胞(hiPSCs)进行牙齿再生的研究对自体牙齿再生很有价值。获得间充质细胞和上皮细胞作为牙齿再生的资源是必要的,因为间充质细胞和上皮细胞之间的相互作用在牙齿发育中起着至关重要的作用。我们曾报道过建立源于hiPSCs的牙科上皮样细胞(EPI-iPSCs),但源于hiPSCs的牙科间充质干细胞(MSCs)尚未见报道。本研究旨在建立源自 hiPSCs 的间充质干细胞,并用 EPI-iPSCs 将其分化为牙科细胞。考虑到牙科间充质干细胞来源于神经嵴,研究人员通过神经嵴形成诱导 hiPSCs 分化为间充质干细胞,从而获得牙科间充质干细胞的特性。为了使 hiPSCs 通过神经嵴形成分化成间充质干细胞,将建立的 hiPSCs 与 PA6 基质细胞一起培养和分化,分化的 hiPSCs 在超低附着力平板上形成神经球。神经球在血清补充培养基中分化成间充质干细胞。神经嵴介导的间充质干细胞(NC-MSCs)持续表现出典型的间充质干细胞形态并表达间充质干细胞标记。经过 8 天的牙生成诱导后,在不与牙上皮细胞共培养的情况下,单独的 NC-MSCs 组中牙生成/矿化相关基因和牙本质鞘磷脂蛋白(DSPP)的表达水平有所提高。NC-间充质干细胞和 EPI-iPSCs 共培养组的成髓/成骨/矿化相关基因和 DSPP 蛋白的表达水平较高。此外,NC-间充质干细胞和EPI-iPSCs共培养组比单独NC-间充质干细胞组更早产生钙沉积。这些结果表明,由hiPSCs建立的NC-间充质干细胞具有牙齿上皮细胞的牙齿分化能力。此外,还证实了 hiPSCs 衍生的牙科干细胞可作为自体牙科再生的新型细胞来源。
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