第一波COVID-19住院患者呼出气体蛋白质组成

IF 3.7 4区医学 Q1 BIOCHEMICAL RESEARCH METHODS

Journal of breath research Pub Date : 2025-05-16 DOI:10.1088/1752-7163/add617

Inger Lise Gade, Jacob Bodilsen, Theis Mariager, Sandra Hertz, Lærke Storgaard Duerlund, Christian Kanstrup Holm, Poul Henning Madsen, Tue Bjerg Bennike, Bent Honoré

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引用次数: 0

摘要

COVID-19在世界各地导致大量发病率和超额死亡率，这可能因SARS-CoV-2的变异倾向而加剧。严重COVID-19的发展机制尚不清楚。我们呼出的空气中含有内源性蛋白质，代表着一种高度可接近但尚未开发的生物样本，可以在不使用侵入性程序的情况下收集。我们使用RTubes™收集了28例因COVID-19住院的患者入院和出院时的呼出冷凝水样本。采用基于发现的纳米液相色谱-串联质谱法，对入院时收集的25个有串联质量标签的单次呼气样本和出院时收集的13个样本进行自下而上的蛋白质组学分析。经过严格的数据过滤，总共在呼出样本中鉴定出232种蛋白质。呼出的蛋白质大部分与免疫系统功能和调节有关。KRT77、DCD、CASP14和SERPINB12 4种蛋白的水平随着患者普遍从感染中康复而从入院到出院期间下降。这些蛋白在肺上皮细胞或巨噬细胞中表达，并与COVID-19炎症驱动因素的调节有关。特别是，报警蛋白S100A8和S100A9占呼出蛋白的8%。总之，我们的研究表明，对呼出气体蛋白质组成的分析可以深入了解与炎症和感染反应相关的机制，从而也可以了解严重的COVID-19。

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Exhaled breath protein composition in patients hospitalised during the first wave of COVID-19.

Coronavirus 2019 (COVID-19) leads to substantial morbidity and excess mortality all over the world which may be aggravated by the propensity of Severe Acute Respiratory Syndrome Coronavirus 2 to mutate. Mechanisms for development of severe COVID-19 are poorly understood. The air we exhale contains endogenous proteins and represents a highly accessible yet unexploited biological sample that can be collected without use of invasive procedures. We collected exhaled breath condensate samples from 28 patients hospitalised due to COVID-19 at admission and discharge using RTubes™. Bottom-up proteomic analysis of tandem mass-tag-labelled single exhaled breath samples was performed in 25 exhaled breath samples collected at admission and 13 samples collected at discharge using discovery-based nano-liquid chromatography-tandem mass spectrometry. In total, 232 proteins were identified in the exhaled breath samples after stringent data filtering. Most of the exhaled proteins were related to the immune systems function and regulation. The levels of four proteins, KRT77, DCD, CASP14 and SERPINB12 decreased from admission to discharge as patients generally recovered from the infection. These proteins are expressed in lung epithelium or macrophages and are associated with the regulation of inflammation drivers in COVID-19. In particular, the alarmins S100A8 and S100A9 accounted for 8% of the exhaled breath proteins. In conclusion, our study demonstrates that analysis of the exhaled breath protein composition can give insights into mechanisms related to inflammation and response to infections, and hereby also of severe COVID-19.Clinical Trial No: NCT04598620.

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来源期刊

Journal of breath research BIOCHEMICAL RESEARCH METHODS-RESPIRATORY SYSTEM

CiteScore

7.60

自引率

21.10%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Breath Research is dedicated to all aspects of scientific breath research. The traditional focus is on analysis of volatile compounds and aerosols in exhaled breath for the investigation of exogenous exposures, metabolism, toxicology, health status and the diagnosis of disease and breath odours. The journal also welcomes other breath-related topics. Typical areas of interest include: Big laboratory instrumentation: describing new state-of-the-art analytical instrumentation capable of performing high-resolution discovery and targeted breath research; exploiting complex technologies drawn from other areas of biochemistry and genetics for breath research. Engineering solutions: developing new breath sampling technologies for condensate and aerosols, for chemical and optical sensors, for extraction and sample preparation methods, for automation and standardization, and for multiplex analyses to preserve the breath matrix and facilitating analytical throughput. Measure exhaled constituents (e.g. CO2, acetone, isoprene) as markers of human presence or mitigate such contaminants in enclosed environments. Human and animal in vivo studies: decoding the ''breath exposome'', implementing exposure and intervention studies, performing cross-sectional and case-control research, assaying immune and inflammatory response, and testing mammalian host response to infections and exogenous exposures to develop information directly applicable to systems biology. Studying inhalation toxicology; inhaled breath as a source of internal dose; resultant blood, breath and urinary biomarkers linked to inhalation pathway. Cellular and molecular level in vitro studies. Clinical, pharmacological and forensic applications. Mathematical, statistical and graphical data interpretation.