[利用单细胞 RNA 测序破解人类炎性肺泡微环境中肉芽组织的命运】。]

Y Li, Y Xue, Y Zhang, K J Hu
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引用次数: 0

摘要

目的:研究人类牙槽窝肉芽组织的细胞组成和异质性,并构建单细胞转录组图:研究人类牙槽窝肉芽组织的细胞组成和异质性,并构建单细胞转录组图,以阐明炎症微环境自然消解的潜在结果。研究方法2022年9月至2023年8月,第四军医大学口腔医学院口腔颌面外科收集了12个因牙周炎拔牙并计划进行延迟部位保留或自体牙移植的牙槽窝肉芽组织。本研究采用 HE 染色和单细胞 RNA 测序(scRNA-seq)技术观察不同类型肉芽组织的细胞组成和形态变化。该方法能够识别炎性牙槽骨肉芽组织在特定微环境中的细胞序列变化,构建不同类型人类牙槽骨肉芽组织的单细胞图谱,并探索炎性肉芽组织消解过程中细胞类型分布的时空模式和关键基因的变化。研究结果HE 染色显示牙槽炎性肉芽组织中有大量炎性细胞浸润。让炎性肉芽组织自然消退三周后,其组织学形态与修复性肉芽组织基本一致。ScRNA-seq共捕获了肉芽组织的20 448个细胞,基因表达定量分析显示,炎性肉芽组织的基因总数为33 835个,自然消退肉芽组织的基因总数为36 058个,修复肉芽组织的基因总数为34 719个。在单细胞水平上,肉芽组织被注释为十个细胞亚群,包括血管内皮细胞、间充质干细胞和成纤维细胞。在炎症性肉芽组织和自然消退的肉芽组织中,观察到细胞组成比例的差异。假时分析表明了组织溶解和愈合的两个主要结果,涉及免疫反应和血管生成。其中,与炎症调节和免疫反应相关的基因(如 Igbp5、Zfp36 和 Hspa1b),以及参与细胞外基质分泌和血管与纤维形成的基因(如 Timp3、Postn 和 Rgs5)在两种肉芽组织之间的表达存在显著差异。结论与自然分解的肉芽组织相比,炎性肉芽组织在细胞组成、基因表达和生物功能方面表现出异质性。当肺泡窝中的炎性肉芽组织不受干扰地进行自然分解时,它在组织学和单细胞水平上都显示出与修复性肉芽组织相似的细胞组成。此外,它还能通过免疫反应和组织重塑调节炎症反应和愈合过程。
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[Deciphering the fate of granulation tissue in the human inflammatory alveolar microenvironment using single-cell RNA sequencing].

Objective: To investigate the cellular composition and heterogeneity of granulation tissue in human alveolar sockets and construct single-cell transcriptomic maps to elucidate the potential outcomes of natural resolution in the inflammatory microenvironment. Methods: Granulation tissues from 12 alveolar sockets undergoing tooth extraction due to periodontitis and scheduled for delayed site preservation or autologous tooth transplantation were collected in the Department of Oral and Maxillofacial Surgery, School of stomatology Fourth Military Medical University from September 2022 to August 2023. This study used HE staining and single-cell RNA sequencing (scRNA-seq) to observe the cellular composition and morphological changes of different types of granulation tissues. This approach enabled us to identify cellular sequence variations in the inflammatory dental alveolar granulation tissue within specific microenvironments, construct single-cell atlases for different types of human dental alveolar granulation tissues, and explore the spatiotemporal patterns of cell type distribution and key gene changes during the resolution process of inflammatory granulation tissue. Results: HE staining revealed extensive infiltration of inflammatory cells in the dental alveolar inflammatory granulation tissue. After allowing the inflammatory granulation tissue to naturally resolve for three weeks, its histological morphology was essentially consistent with that of reparative granulation tissue. ScRNA-seq captured a total of 20 448 cells from granulation tissues, and the gene expression quantification analysis revealed total gene counts of 33 835 for inflammatory granulation tissue, 36 058 for naturally resolved granulation tissue, and 34 719 for reparative granulation tissue. At the single-cell level, granulation tissue was annotated into ten cell subgroups, including vascular endothelial cells, mesenchymal stem cells, and fibroblasts. Differences were observed in the proportion of cell compositions between inflammatory and naturally resolved granulation tissues. Pseudo-temporal analysis illustrated two main outcomes in tissue resolution and healing, involving immune responses and angiogenesis. Among these, genes associated with inflammation regulation and immune response, such as Igbp5, Zfp36, and Hspa1b, as well as genes involved in extracellular matrix secretion and the formation of vessels and fibers such as Timp3, Postn, and Rgs5, showed significant differences in expression between the two types of granulation tissues. Conclusions: Inflammatory granulation tissue exhibits heterogeneity in cell composition, gene expression, and biological functions compared to naturally resolved granulation tissue. When the inflammatory granulation tissue in the alveolar socket is left undisturbed to undergo natural resolution, it displays a cellular composition similar to that of reparative granulation tissue at both the histological and single-cell levels. Moreover, it modulates the inflammatory response and the healing process through immune reactions and tissue remodeling.

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来源期刊
中华口腔医学杂志
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.
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