Canderan Glenda, Muehling Lyndsey M, Kadl Alexandra, Ladd Shay, Bonham Catherine, Cross Claire E, Lima Sierra M, Yin Xihui, Sturek Jeffrey M, Wilson Jeffrey M, Keshavarz Behnam, Bryant Naomi, Murphy Deborah D, Cheon In Su, McNamara Coleen A, Sun Jie, Utz Paul J, Dolatshahi Sepideh, Irish Jonathan M, Woodfolk Judith A
bioRxiv. 2024 Apr 4:2024.04.03.587929. doi: 10.1101/2024.04.03.587929.
The variable etiology of persistent breathlessness after COVID-19 have confounded efforts to decipher the immunopathology of lung sequelae. Here, we analyzed hundreds of cellular and molecular features in the context of discrete pulmonary phenotypes to define the systemic immune landscape of post-COVID lung disease. Cluster analysis of lung physiology measures highlighted two phenotypes of restrictive lung disease that differed by their impaired diffusion and severity of fibrosis. Machine learning revealed marked CCR5+CD95+ CD8+ T-cell perturbations in mild-to-moderate lung disease, but attenuated T-cell responses hallmarked by elevated CXCL13 in more severe disease. Distinct sets of cells, mediators, and autoantibodies distinguished each restrictive phenotype, and differed from those of patients without significant lung involvement. These differences were reflected in divergent T-cell-based type 1 networks according to severity of lung disease. Our findings, which provide an immunological basis for active lung injury versus advanced disease after COVID-19, might offer new targets for treatment.
新冠病毒感染后持续呼吸急促的病因各异,这给解读肺部后遗症的免疫病理学带来了困难。在此,我们在离散的肺部表型背景下分析了数百种细胞和分子特征,以确定新冠后肺部疾病的全身免疫格局。对肺生理指标的聚类分析突出了两种限制性肺病表型,它们在弥散功能受损和纤维化严重程度方面存在差异。机器学习显示,在轻度至中度肺病中,CCR5+CD95+ CD8+ T细胞存在明显扰动,但在更严重的疾病中,以CXCL13升高为特征的T细胞反应减弱。不同的细胞、介质和自身抗体组区分了每种限制性表型,且与无明显肺部受累患者的表型不同。根据肺病严重程度,这些差异反映在基于T细胞的不同1型网络中。我们的研究结果为新冠病毒感染后活动性肺损伤与晚期疾病提供了免疫学基础,可能为治疗提供新的靶点。
