成骨微环境通过糖酵解作用影响腭发育

IF 2.2 3区 生物学 Q4 CELL BIOLOGY
Xia Peng , Jing Chen , Yijia Wang , Xiaotong Wang , Xige Zhao , Xiaoyu Zheng , Zhiwei Wang , Dong Yuan , Juan Du
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引用次数: 2

摘要

腭发育涉及各种事件,包括增殖、成骨分化和上皮-间充质转化。这些过程的破坏可能导致腭裂(CP)。小鼠胚胎腭间充质细胞(MEPM)通常用于探索腭发育和CP的机制。然而,微环境在MEPM细胞生物学特性中的作用很少报道,MEPM细胞在腭发育过程中会发生动态变化。在本研究中,我们调查了腭架间充质在不同发育阶段是否存在差异。我们的研究结果发现,在小鼠胚胎期(E)13.5,腭架在腭早期有利于增殖,在E15.5,即腭发育后期有利于成骨。与常规培养基相比,由成骨分化培养基(OIM)模拟的成骨微环境影响了MEPM细胞的生物学特性。具体而言,MEPM细胞在成骨后表现出较慢的增殖、较短的S期、增加的凋亡和较小的迁移距离。E15.5 MEPM细胞比E13.5更敏感,显示出更早的变化。此外,E13.5-MEPM细胞的成骨能力比E15.5弱,并且与常规培养基相比,两种MEPM细胞在OIM中都表现出不同的乳酸脱氢酶A(LDHA)和细胞色素c(CytC)表达,这表明糖酵解可能与成骨微环境对MEPM细胞的影响有关。通过比较两种细胞的干性,我们发现E13.5 MEPM细胞的干性比E15.5 MEPM细胞更强,并且E15.5 MEMM细胞比干细胞更像分化的细胞,因为它们分化为多种细胞命运的能力降低了。E13.5 MEPM细胞可能是E15.5 MEPM细胞的前体细胞。我们的研究结果丰富了对微环境对E13.5和E15.5 MEPM细胞生物学特性的影响的理解,在未来使用MEPM细胞作为腭部研究的模型时应考虑这一点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Osteogenic microenvironment affects palatal development through glycolysis

Palate development involves various events, including proliferation, osteogenic differentiation, and epithelial-mesenchymal transition. Disruption of these processes can result in the cleft palate (CP). Mouse embryonic palatal mesenchyme (MEPM) cells are commonly used to explore the mechanism of palatal development and CP. However, the role of the microenvironment in the biological properties of MEPM cells, which undergoes dynamic changes during palate development, is rarely reported. In this study, we investigated whether there were differences between the palatal shelf mesenchyme at different developmental stages. Our results found that the palatal shelves facilitate proliferation at the early palate stage at mouse embryonic day (E) 13.5 and the tendency towards osteogenesis at E15.5, the late palate development stage. And the osteogenic microenvironment, which was mimicked by osteogenic differentiation medium (OIM), affected the biological properties of MEPM cells when compared to the routine medium. Specifically, MEPM cells showed slower proliferation, shorter S phase, increased apoptosis, and less migration distance after osteogenesis. E15.5 MEPM cells were more sensitive than E13.5, showing an earlier change. Moreover, E13.5 MEPM cells had weaker osteogenic ability than E15.5, and both MEPM cells exhibited different Lactate dehydrogenase A (LDHA) and Cytochrome c (CytC) expressions in OIM compared to routine medium, suggesting that glycolysis might be associated with the influence of the osteogenic microenvironment on MEPM cells. By comparing the stemness of the two cells, we investigated that the stemness of E13.5 MEPM cells was stronger than that of E15.5 MEPM cells, and E15.5 MEPM cells were more like differentiated cells than stem cells, as their capacity to differentiate into multiple cell fates was reduced. E13.5 MEPM cells might be the precursor cells of E15.5 MEPM cells. Our results enriched the understanding of the effect of the microenvironment on the biological properties of E13.5 and E15.5 MEPM cells, which should be considered when using MEPM cells as a model for palatal studies in the future.

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来源期刊
Differentiation
Differentiation 生物-发育生物学
CiteScore
4.10
自引率
3.40%
发文量
38
审稿时长
51 days
期刊介绍: Differentiation is a multidisciplinary journal dealing with topics relating to cell differentiation, development, cellular structure and function, and cancer. Differentiation of eukaryotes at the molecular level and the use of transgenic and targeted mutagenesis approaches to problems of differentiation are of particular interest to the journal. The journal will publish full-length articles containing original work in any of these areas. We will also publish reviews and commentaries on topics of current interest. The principal subject areas the journal covers are: • embryonic patterning and organogenesis • human development and congenital malformation • mechanisms of cell lineage commitment • tissue homeostasis and oncogenic transformation • establishment of cellular polarity • stem cell differentiation • cell reprogramming mechanisms • stability of the differentiated state • cell and tissue interactions in vivo and in vitro • signal transduction pathways in development and differentiation • carcinogenesis and cancer • mechanisms involved in cell growth and division especially relating to cancer • differentiation in regeneration and ageing • therapeutic applications of differentiation processes.
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