[Single-cell sequencing reveals the temporal expression characteristics of key molecules related to tooth agenesis and dental hard tissues in mouse molars].

Q4 Medicine

中华口腔医学杂志 Pub Date : 2025-09-09 DOI:10.3769/cma.j.cn112144-20250605-00206

W Guo, X P Wang, T Y Su, S Q Wei, X Y Pan, X H Duan

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引用次数: 0

Abstract

Objective: To utilize single-cell RNA sequencing (scRNA-seq) to untangle the temporal expression profiles of molecules associated with congenital tooth agenesis and dental hard tissue formation during mouse molar development, and to construct a comprehensive cell atlas spanning the entire developmental period from E13.5 to P7.5, thereby providing new insights into the molecular mechanisms underlying abnormal tooth development. Methods: scRNA-seq data of murine mandibular molar tooth germs at five developmental stages (E13.5, E14.5, E16.5, P3.5, P7.5) were obtained from the GEO database (accession: GSE189381). The Seurat pipeline was employed for quality control, data normalization, dimensionality reduction, and Harmony-based batch effect correction. Cellular subpopulations were identified through uniform manifold approximation and projection dimensionality reduction, while developmental trajectories were reconstructed using Monocle for pseudotime analysis. Results: scRNA-seq analysis profiling identified 27 distinct cellular clusters, which were annotated into twelve major cell types including epithelial cells, mesenchymal cells, and endothelial cells. Msx1 exhibited a bimodal expression pattern. Pax9 reached its peak at E14.5 and then gradually decreased. Eda had a low expression level with a diffuse distribution. In contrast, Amelx and Enam were barely expressed during the embryonic stage and were activated at P3.5. Dspp was ectopically highly expressed in epithelial cells from P3.5 to P7.5, while Dmp1 was specifically upregulated in mesenchymal cells at P7.5. Conclusions: The temporal expression patterns of key regulatory genes for tooth agenesis (Msx1, Pax9, Eda), ameloblast differentiation (Amelx, Enam), and odontoblast development (Dspp, Dmp1) during mouse molar development. These findings provide a theoretical foundation and potential therapeutic targets for deciphering the molecular mechanisms underlying tooth agenesis and other developmental dental anomalies, paving the way for targeted clinical interventions.

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[单细胞测序揭示了小鼠磨牙牙齿发育和牙硬组织相关关键分子的时间表达特征]。

目的：利用单细胞rna测序（scRNA-seq）技术分析小鼠磨牙发育过程中先天性牙齿发育和牙硬组织相关分子的时间表达特征，构建从E13.5到P7.5整个发育周期的细胞图谱，为阐明牙齿发育障碍的分子机制提供新的证据。方法：从GEO数据库（accession: GSE189381）中获取5个发育阶段（E13.5、E14.5、E16.5、P3.5、P7.5）的小鼠下颌磨牙胚scRNA-seq数据。Seurat流水线用于质量控制、数据归一化、降维和基于harmony的批处理效果校正。通过UMAP降维识别细胞亚群，同时使用Monocle重建发育轨迹进行伪时间分析。结果：scRNA-seq分析图谱鉴定出27个不同的细胞簇，它们被标注为12种主要的细胞类型，包括上皮细胞、间充质细胞和内皮细胞。Msx1呈现双峰表达模式。Pax9在E14.5达到峰值，之后逐渐降低。Eda表达水平低，呈弥漫性分布。相比之下，Amelx和Enam在胚胎期几乎不表达，在P3.5时被激活。Dspp在上皮细胞P3.5 - P7.5特异高表达，而Dmp1在间充质细胞P7.5特异上调。结论：小鼠磨牙发育过程中牙齿发育关键调控基因（Msx1、Pax9、Eda）、成釉细胞分化（Amelx、Enam）和成牙细胞发育（Dspp、Dmp1）的时间表达模式。这些发现为破解牙齿发育不全和其他发育性牙齿异常的分子机制提供了理论基础和潜在的治疗靶点，为有针对性的临床干预铺平了道路。

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来源期刊

中华口腔医学杂志 Medicine-Medicine (all)

CiteScore

0.90

自引率

0.00%

发文量

9692

期刊介绍： Founded in August 1953, Chinese Journal of Stomatology is a monthly academic journal of stomatology published publicly at home and abroad, sponsored by the Chinese Medical Association and co-sponsored by the Chinese Stomatology Association. It mainly reports the leading scientific research results and clinical diagnosis and treatment experience in the field of oral medicine, as well as the basic theoretical research that has a guiding role in oral clinical practice and is closely combined with oral clinical practice. Chinese Journal of Over the years, Stomatology has been published in Medline, Scopus database, Toxicology Abstracts Database, Chemical Abstracts Database, American Cancer database, Russian Abstracts database, China Core Journal of Science and Technology, Peking University Core Journal, CSCD and other more than 20 important journals at home and abroad Physical medicine database and retrieval system included.