炎症
免疫学
渗透(HVAC)
牙周炎
效应器
中性粒细胞胞外陷阱
疾病
医学
口腔粘膜
病理
全身炎症
促炎细胞因子
生物
粘膜炎症
发病机制
趋化性
病理生理学
中性粒细胞
牙周病
先天免疫系统
粘膜
流式细胞术
粒细胞
转录组
白细胞介素8
口腔微生物群
白细胞贩卖
作者
David Fraser,Vasileios I. Theofilou,Teresa Greenwell-Wild,Laurie Brenchley,Eleni Kanasi,Chen Wang,Niki M. Moutsopoulos
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2026-03-24
标识
DOI:10.64898/2026.03.21.713286
摘要
The oral mucosa is a prototypical human barrier reliant on neutrophils for homeostasis, as both neutrophil deficiency and excessive activation are linked to immunopathology. Yet, whether neutrophils acquire tissue-specific states in health or disease remains unclear. We incorporated single-cell RNA sequencing, spectral flow cytometry, and spatial proteomics across tooth-associated oral mucosa (gingiva) and interconnected compartments of blood and oral cavity to define neutrophil tissue specification in healthy individuals and patients with periodontitis, a neutrophil-dominated inflammatory disease. In health, mucosal neutrophils adopt discrete immunoregulatory states despite constant microbial exposure and mechanical injury. Periodontitis disrupts these programs through infiltration of blood-like neutrophil subsets, increased transcriptional noise, and heightened effector activation. Strikingly, oral inflammation systemically imprints on circulating neutrophils, marked by the expansion of a Rho-GTPase regulatory program that is shared across diverse human inflammatory conditions. Together, these findings establish a framework for understanding how localized tissue inflammation affects both neutrophil plasticity at barrier surfaces and conditioning of systemic neutrophil states with broad implications for inflammatory disease pathogenesis.
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