University of Edinburgh Centre for Inflammation Research, Queen's Medical Research Institute, Edinburgh BioQuarter, Edinburgh, United Kingdom.
Roslin Institute, University of Edinburgh, Easter Bush Campus, Midlothian, United Kingdom.
Am J Respir Cell Mol Biol. 2022 Feb;66(2):196-205. doi: 10.1165/rcmb.2021-0358OC.
Immunopathology occurs in the lung and spleen in fatal coronavirus disease (COVID-19), involving monocytes/macrophages and plasma cells. Antiinflammatory therapy reduces mortality, but additional therapeutic targets are required. We aimed to gain mechanistic insight into COVID-19 immunopathology by targeted proteomic analysis of pulmonary and splenic tissues. Lung parenchymal and splenic tissue was obtained from 13 postmortem examinations of patients with fatal COVID-19. Control tissue was obtained from cancer resection samples (lung) and deceased organ donors (spleen). Protein was extracted from tissue by phenol extraction. Olink multiplex immunoassay panels were used for protein detection and quantification. Proteins with increased abundance in the lung included MCP-3, antiviral TRIM21, and prothrombotic TYMP. OSM and EN-RAGE/S100A12 abundance was correlated and associated with inflammation severity. Unsupervised clustering identified "early viral" and "late inflammatory" clusters with distinct protein abundance profiles, and differences in illness duration before death and presence of viral RNA. In the spleen, lymphocyte chemotactic factors and CD8A were decreased in abundance, and proapoptotic factors were increased. B-cell receptor signaling pathway components and macrophage colony stimulating factor (CSF-1) were also increased. Additional evidence for a subset of host factors (including DDX58, OSM, TYMP, IL-18, MCP-3, and CSF-1) was provided by overlap between ) differential abundance in spleen and lung tissue; ) meta-analysis of existing datasets; and ) plasma proteomic data. This proteomic analysis of lung parenchymal and splenic tissue from fatal COVID-19 provides mechanistic insight into tissue antiviral responses, inflammation and disease stages, macrophage involvement, pulmonary thrombosis, splenic B-cell activation, and lymphocyte depletion.
免疫病理学发生在致命性冠状病毒病(COVID-19)的肺部和脾脏中,涉及单核细胞/巨噬细胞和浆细胞。抗炎治疗可降低死亡率,但需要更多的治疗靶点。我们旨在通过对肺和脾组织进行靶向蛋白质组分析,深入了解 COVID-19 的免疫病理学机制。从 13 例致命性 COVID-19 患者的尸检中获得肺实质和脾组织。对照组织取自癌症切除样本(肺)和已故器官捐献者(脾)。通过酚抽提法从组织中提取蛋白质。使用 Olink 多重免疫分析试剂盒进行蛋白质检测和定量。肺组织中丰度增加的蛋白质包括 MCP-3、抗病毒 TRIM21 和促血栓形成 TYMP。OSM 和 EN-RAGE/S100A12 的丰度相关,与炎症严重程度相关。无监督聚类鉴定出具有不同蛋白质丰度特征的“早期病毒”和“晚期炎症”簇,以及死亡前疾病持续时间和病毒 RNA 存在的差异。在脾脏中,淋巴细胞趋化因子和 CD8A 的丰度降低,促凋亡因子增加。B 细胞受体信号通路成分和巨噬细胞集落刺激因子(CSF-1)也增加。通过脾脏和肺组织中差异丰度的重叠;对现有数据集的荟萃分析;和血浆蛋白质组数据,为宿主因子的一部分(包括 DDX58、OSM、TYMP、IL-18、MCP-3 和 CSF-1)提供了额外的证据。这项对致命性 COVID-19 肺实质和脾组织的蛋白质组分析提供了对组织抗病毒反应、炎症和疾病阶段、巨噬细胞参与、肺血栓形成、脾脏 B 细胞激活和淋巴细胞耗竭的机制见解。
