单细胞测序揭示肺长COVID患者气道粘膜的细胞景观变化

Firoozeh V.Gerayeli, Hye Yun Park, Stephen Milne, Xuan Li, Chen Xi Yang, Josie Tuong, Rachel Eddy, Elizabeth Guinto, Chung Y Cheung, Julia Shun-Wei Yang, Cassie Gilchrist, Dina Yehia, Tara Stach, Tawimas Shaipanich, Jonathon Leipsic, Graeme Koelwyn, Janice Leung, Don D Sin
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引用次数: 0

摘要

为了阐明肺部长COVID的重要细胞和分子驱动因素,我们利用报告有持续性肺部症状的长COVID患者的支气管刷取物生成了气道粘膜的单细胞转录组图谱。我们从加拿大大温哥华地区的普通社区招募了患有和未患有长COVID的成年人。组群分为肺部长COVID(PLC)患者和对照组,前者定义为从最初感染急性SARS-CoV-2至少一年后出现新的或恶化的呼吸道症状者(9人);后者定义为急性呼吸道症状已完全缓解的SARS-CoV-2感染者或未经历过急性COVID-19的人(9人)。这些受试者都接受了支气管镜检查,从支气管刷样本中提取单细胞悬液,然后进行测序。下游分析共回收了 56,906 个细胞,其中 34,840 个细胞属于 PLC 组。降维图显示,PLC 组中有一个独特的中性粒细胞群(p<.05)。Ingenuity Pathway 分析显示,中性粒细胞脱颗粒途径在上皮细胞中富集。PLC 组和对照组之间的差异基因表达分析表明,分泌细胞簇中的粘蛋白基因上调。小气道的单细胞转录组图谱显示,PLC气道中嗜中性粒细胞集群占优势,嗜中性粒细胞相关活化特征上调,分泌细胞中的MUC基因表达增加。这些结果表明,长 COVID 的肺部症状可能是由慢性小气道炎症引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Single cell sequencing reveals cellular landscape alterations in the airway mucosa of patients with pulmonary long COVID
To elucidate the important cellular and molecular drivers of pulmonary long COVID, we generated a single-cell transcriptomic map of the airway mucosa using bronchial brushings from patients with long COVID who reported persistent pulmonary symptoms. Adults with and without long COVID were recruited from the general community in greater Vancouver, Canada. The cohort was divided into those with pulmonary long COVID (PLC), which was defined as persons with new or worsening respiratory symptoms following at least one year from their initial acute SARS-CoV-2 infection (N=9); and control subjects defined as SARS-CoV-2 infected persons whose acute respiratory symptoms had fully resolved or individuals who had not experienced acute COVID-19 (N=9). These participants underwent bronchoscopy from which a single cell suspension was created from bronchial brush samples and then sequenced. A total of 56,906 cells were recovered for the downstream analysis, with 34,840 cells belonging to the PLC group. A dimensionality reduction plot shows a unique cluster of neutrophils in the PLC group (p<.05). Ingenuity Pathway Analysis revealed that neutrophil degranulation pathway was enriched across epithelial cells. Differential gene expression analysis between the PLC and control groups demonstrated upregulation of mucin genes in secretory cell clusters. A single-cell transcriptomic landscape of the small airways shows that the PLC airways harbors a dominant neutrophil cluster and an upregulation in the neutrophil-associated activation signature with increased expression of MUC genes in the secretory cells. Together, they suggest that pulmonary symptoms of long COVID may be driven by chronic small airway inflammation.
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