循环中性粒细胞胞外捕获物（NET）形成的 "无赖 "中性粒细胞亚群免疫型[DEspR + CD11b +]介导了 COVID-19- 一项观察性研究中的多器官功能衰竭。

Translational medicine communications Pub Date : 2023-01-01 Epub Date: 2023-04-18 DOI:10.1186/s41231-023-00143-x

Victoria L M Herrera, Nicholas A Bosch, Judith J Lok, Mai Q Nguyen, Kaitriona A Lenae, Joanne T deKay, Sergey V Ryzhov, David B Seder, Nelson Ruiz-Opazo, Allan J Walkey

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引用次数: 1

摘要

背景：累积研究表明，中性粒细胞和中性粒细胞胞外捕获物（NET）与重症 COVID-19 的不良预后有关。然而，迄今为止还没有一种治疗方法能够阻止中性粒细胞/NETs介导的多器官功能障碍的发展。由于新出现的中性粒细胞异质性，研究循环中NET形成的中性粒细胞[NET + Ns]亚群作为COVID-19患者多器官功能衰竭进展的介质对于确定治疗靶点至关重要：我们开展了一项前瞻性观察研究，通过定量免疫荧光细胞学和因果中介分析，对CD11b + [NET + N]的循环水平进行免疫分型，以检测内皮素-1/信号肽双重受体（DEspR ±）的表达。2020 年 5 月至 9 月，在 36 名经同意的中重度 COVID-19 住院成人中，我们在时间点 t1（ICU/入院后平均 5.5 天）和 t2（ICU 出院或死亡前一天）通过 SOFA 评分测量了急性多器官功能衰竭，通过 SaO2/FiO2（SF）比值测量了呼吸衰竭，并在第 28 天测量了无 ICU 天数（ICUFD）。循环中性粒细胞绝对计数（ANC）和[NET + N]亚群特异性计数在t1进行测量。进行了斯皮尔曼相关分析和因果中介分析：斯皮尔曼相关性分析表明，t1-SOFA 与 t2-SOFA （rho r S = 0.80）和 ICUFD （r S = -0.76）相关；循环 DEspR + [NET + Ns] 与 t1-SOFA （r S = 0.71）、t2-SOFA （r S = 0.62）和 ICUFD （r S = -0.63）相关；ANC 与 t1-SOFA （r S = 0.因果中介分析发现，DEspR + [NET + Ns] 是 t1-SOFA（暴露）和 t2-SOFA（结果）之间 44.1% [95% CI:16.5,110.6] 因果路径的中介，当 DEspR + [NET + Ns] 理论上降为零时，46.9% [15.8,124.6] 的中介被消除。同样，DEspR + [NET + Ns] 在 t1-SOFA 到 ICUFD 的因果路径中起了 47.1% [22.0,72.3%] 的中介作用，如果 DEspR + [NET + Ns] 被减至零，则 51.1% [22.8,80.4%] 的中介作用将被消除。在 t1-SOFA > 1 的患者中，假设治疗消除 DEspR + [NET + Ns] 的间接效应可使 t2-SOFA 减少 0.98 [0.29,2.06] 点，ICUFD 减少 3.0 [0.85,7.09] 天。相比之下，DEspR + [NET + Ns] 对 SF 比率没有明显的调节作用，ANC 对 SOFA 评分也没有明显的调节作用：结论：尽管存在同等相关性，但 DEspR + [NET + Ns] 而非 ANC 对急性 COVID-19 中多器官功能衰竭的进展具有中介作用，假定减少 DEspR + [NET + Ns] 可改善 ICUFD。这些转化研究结果证明，DEspR + [NET + Ns]作为潜在的患者分层指标和COVID-19多器官功能衰竭的可行治疗靶点，值得进一步研究：在线版本包含补充材料，可查阅 10.1186/s41231-023-00143-x。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Circulating neutrophil extracellular trap (NET)-forming 'rogue' neutrophil subset, immunotype [DEspR + CD11b +], mediate multi-organ failure in COVID-19-an observational study.

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Circulating neutrophil extracellular trap (NET)-forming 'rogue' neutrophil subset, immunotype [DEspR + CD11b +], mediate multi-organ failure in COVID-19-an observational study.

Background: Cumulative research show association of neutrophils and neutrophil extracellular traps (NETs) with poor outcomes in severe COVID-19. However, to date, there is no curative intent therapy able to block neutrophil/NETs-mediated progression of multi-organ dysfunction. Because of emerging neutrophil heterogeneity, the study of subsets of circulating NET-forming neutrophils [NET + Ns] as mediators of multi-organ failure progression among patients with COVID-19 is critical to identification of therapeutic targets.

Methods: We conducted a prospective observational study of circulating levels of CD11b + [NET + N] immunotyped for dual endothelin-1/signal peptide receptor (DEspR ±) expression by quantitative immunofluorescence-cytology and causal mediation analysis. In 36 consented adults hospitalized with mod-severe COVID-19, May to September 2020, we measured acute multi-organ failure via SOFA-scores and respiratory failure via SaO2/FiO2 (SF)-ratio at time points t1 (average 5.5 days from ICU/hospital admission) and t2 (the day before ICU-discharge or death), and ICU-free days at day28 (ICUFD). Circulating absolute neutrophil counts (ANC) and [NET + N] subset-specific counts were measured at t1. Spearman correlation and causal mediation analyses were conducted.

Results: Spearman correlation analyses showed correlations of t1-SOFA with t2-SOFA (rho r _S = 0.80) and ICUFD (r _S = -0.76); circulating DEspR + [NET + Ns] with t1-SOFA (r _S = 0.71), t2-SOFA (r _S = 0.62), and ICUFD (r _S = -0.63), and ANC with t1-SOFA (r _S = 0.71), and t2-SOFA (r _S = 0.61).Causal mediation analysis identified DEspR + [NET + Ns] as mediator of 44.1% [95% CI:16.5,110.6] of the causal path between t1-SOFA (exposure) and t2-SOFA (outcome), with 46.9% [15.8,124.6] eliminated when DEspR + [NET + Ns] were theoretically reduced to zero. Concordantly, DEspR + [NET + Ns] mediated 47.1% [22.0,72.3%] of the t1-SOFA to ICUFD causal path, with 51.1% [22.8,80.4%] eliminated if DEspR + [NET + Ns] were reduced to zero. In patients with t1-SOFA > 1, the indirect effect of a hypothetical treatment eliminating DEspR + [NET + Ns] projected a reduction of t2-SOFA by 0.98 [0.29,2.06] points and ICUFD by 3.0 [0.85,7.09] days. In contrast, there was no significant mediation of SF-ratio through DEspR + [NET + Ns], and no significant mediation of SOFA-score through ANC.

Conclusions: Despite equivalent correlations, DEspR + [NET + Ns], but not ANC, mediated progression of multi-organ failure in acute COVID-19, and its hypothetical reduction is projected to improve ICUFD. These translational findings warrant further studies of DEspR + [NET + Ns] as potential patient-stratifier and actionable therapeutic target for multi-organ failure in COVID-19.

Supplementary information: The online version contains supplementary material available at 10.1186/s41231-023-00143-x.

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Translational medicine communications

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5 weeks