Roles of centrioles in neural attraction of dental pulp stem cells

IF 2.6 3区 医学 Q1 MEDICINE, GENERAL & INTERNAL
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Abstract

Background/Purpose

Human nerve development is vital, affecting trauma recovery and dental issues. Early embryonic clues link nerves to tooth development via factors like Wnt and Hedgehog pathways. Centrosomes play a role, and centriole issues can disrupt oral development, as in oral facial digital syndrome type 1. This study aimed to delve deeper into the role and influence of centrioles on the development of dental nerves.

Methods

Cell migration assessed by co-culturing mouse neural tissue and human dental pulp stem cells (DPSCs). Centrioles were fluorescently stained, and their positions observed with confocal microscopy. Centrinone was employed to inhibit centriole activity, evaluating its impact on cell mobility under activity inhibition.

Results

As the distance between nerve tissue and DPSCs decreased, more DPSCs had centrioles near nerve tissue. Co-culture with nerve tissue increased DPSCs migration toward it. In contrast, DPSCs cultured alone or with fibroblasts showed weaker migration, indicating neural tissue's attractive influence. The addition of 125 nM centrinone halted cell migration and centriole polymerization. After centrinone removal over two days, centrioles returned to normal, suggesting continued motility inhibition.

Conclusion

Centrioles direct cell movement and polarization. There are two scenarios: centrioles at the cell center with the nucleus moving backward (as in NIH3T3 cells) and both cells and centrioles moving forward (as in DPSCs). DPSCs' attraction to neural tissue may shed light on nerve guidance by tooth germs, aiding embryonic cell differentiation into nerves. However, further in vivo and in vitro studies are needed to confirm the specific mechanism.

中心粒在牙髓干细胞神经吸引中的作用
背景/目的人类神经的发育至关重要,会影响创伤恢复和牙齿问题。早期胚胎线索通过 Wnt 和刺猬通路等因素将神经与牙齿发育联系起来。中心体发挥着作用,而中心粒问题会破坏口腔发育,如口腔面部数字综合征 1 型。本研究旨在深入研究中心粒对牙科神经发育的作用和影响。方法通过共培养小鼠神经组织和人类牙髓干细胞(DPSCs)评估细胞迁移。对中心粒进行荧光染色,并用共聚焦显微镜观察其位置。结果 随着神经组织与牙髓干细胞之间距离的减小,更多的牙髓干细胞的中心粒靠近神经组织。与神经组织共培养增加了 DPSCs 向神经组织的迁移。相比之下,单独培养或与成纤维细胞一起培养的 DPSCs 的迁移能力较弱,这表明神经组织具有吸引力。加入 125 nM 的 centrinone 会阻止细胞迁移和中心粒聚合。去除 centrinone 两天后,中心粒恢复正常,表明运动抑制作用仍在继续。有两种情况:中心粒位于细胞中心,细胞核向后移动(如 NIH3T3 细胞);细胞和中心粒都向前移动(如 DPSCs)。DPSCs 对神经组织的吸引力可能揭示了牙胚对神经的引导作用,有助于胚胎细胞分化成神经。不过,要确认具体机制还需要进一步的体内和体外研究。
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来源期刊
CiteScore
6.50
自引率
6.20%
发文量
381
审稿时长
57 days
期刊介绍: Journal of the Formosan Medical Association (JFMA), published continuously since 1902, is an open access international general medical journal of the Formosan Medical Association based in Taipei, Taiwan. It is indexed in Current Contents/ Clinical Medicine, Medline, ciSearch, CAB Abstracts, Embase, SIIC Data Bases, Research Alert, BIOSIS, Biological Abstracts, Scopus and ScienceDirect. As a general medical journal, research related to clinical practice and research in all fields of medicine and related disciplines are considered for publication. Article types considered include perspectives, reviews, original papers, case reports, brief communications, correspondence and letters to the editor.
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