Extracellular vesicles from post-COVID-19 patients alter endothelial function under protein restriction.

IF 4.7 2区生物学 Q2 CELL BIOLOGY

American journal of physiology. Cell physiology Pub Date : 2025-10-01 Epub Date: 2025-08-29 DOI:10.1152/ajpcell.00450.2025

Geiza Rafaela Bobato, Juliana Quinholi Rocha, Daniele Mendes Guizoni, Natalia Ribeiro Cabacinha Nóbrega, Ludmilla David de Moura, Matheus Lavorenti Rocha, Licio Augusto Velloso, Everardo Magalhães Carneiro, Ligia de Moraes Antunes-Correa, Ana Paula Davel

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引用次数: 0

Abstract

The COVID-19 pandemic worsened global food insecurity and malnutrition. Protein restriction increases the risk of poor COVID-19 outcomes and cardiovascular disease. Post-COVID-19 syndrome remains a public health concern, although its underlying mechanisms are not yet fully understood. Extracellular vesicles (EVs), released by most cell types in response to infections, have been implicated in endothelial dysfunction during the post-COVID phase. We hypothesized that EV contribute to endothelial cell (EC) dysfunction in long-term COVID-19, particularly in the setting of protein malnutrition. Circulating EVs were isolated from patients at 1 and 6 months (mo) after hospital discharge due to severe COVID-19. Endothelial relaxation was assessed in mouse aortas after a 3-mo normoprotein or low-protein diet (LP). LP feeding reduced endothelium-dependent relaxation to acetylcholine, but EVs from post-COVID patients (1 and 6 mo) restored endothelium-dependent relaxation. This EV effect was abolished by catalase, but not by l-NAME (a nitric oxide synthase inhibitor) or indomethacin (a cyclooxygenase inhibitor). Aortas from LP mice incubated with post-COVID EVs exhibited reduced catalase expression and increased 4-hydroxynonenal (4-HNE) adducts. In vitro amino acid restriction increased EC death (Hoechst/Pi), and reduced nitric oxide (Diaminofluorescein-FM diacetato) and H₂O₂ (Amplex red) levels. Incubation with post-COVID EVs for 24 h increased H₂O₂ only in amino acid-restricted EC. EVs had no significant effect on acetylcholine-induced relaxation in normoprotein-fed mice or on EC parameters in vitro under control conditions. These findings suggest that EVs from patients 1 and 6 mo after severe COVID-19 impact aortic endothelial function by increasing H₂O₂ contribution under conditions of malnutrition.NEW & NOTEWORTHY Our study demonstrated that circulating extracellular vesicles (EVs) from patients 1 and 6 mo after severe COVID-19 altered endothelial function under protein restriction but not in healthy vessels. Post-COVID EVs enhanced the contribution of H₂O₂ to endothelium-dependent relaxation, associated with reduced catalase and increased 4-HNE-modified protein expression. These findings identified EVs from long COVID patients as potential mediators of endothelial dysfunction particularly under malnutrition-related conditions.

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covid -19后患者的细胞外囊泡在蛋白质限制下改变内皮功能

2019冠状病毒病大流行加剧了全球粮食不安全和营养不良。限制蛋白质会增加COVID-19不良结局和心血管疾病的风险。后covid -19综合征仍然是一个公共卫生问题，尽管其潜在机制尚未完全了解。大多数细胞类型在应对感染时释放的细胞外囊泡（EVs）与covid后阶段的内皮功能障碍有关。我们假设EV有助于长期COVID-19患者内皮细胞（EC）功能障碍，特别是在蛋白质营养不良的情况下。在重症COVID-19患者出院后1个月和6个月分离出循环ev。在正常蛋白或低蛋白饮食（LP） 3个月后，评估小鼠主动脉内皮松弛。LP喂养降低了乙酰胆碱的内皮依赖性松弛，但covid后患者（1个月和6个月）的ev恢复了内皮依赖性松弛。过氧化氢酶可以消除这种EV效应，但L-NAME（一种一氧化氮合酶抑制剂）或吲哚美辛（一种环氧化酶抑制剂）则不能。经新冠病毒感染的LP小鼠主动脉过氧化氢酶表达降低，4-HNE加合物增加。体外氨基酸限制增加ECl死亡（Hoechst/Pi），降低NO （DAF-2DA）和H2O2 （Amplex red）水平。与新冠病毒孵育24小时后，仅氨基酸限制性EC中H2O2增加。在对照条件下，ev对乙酰胆碱诱导的小鼠松弛及体外EC参数无显著影响。这些研究结果表明，在营养不良的情况下，重症COVID-19患者1个月和6个月的ev通过增加H₂O₂贡献来影响主动脉内皮功能。

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来源期刊

American journal of physiology. Cell physiology 生物-生理学

CiteScore

9.10

自引率

1.80%

发文量

252

审稿时长

1 months

期刊介绍： The American Journal of Physiology-Cell Physiology is dedicated to innovative approaches to the study of cell and molecular physiology. Contributions that use cellular and molecular approaches to shed light on mechanisms of physiological control at higher levels of organization also appear regularly. Manuscripts dealing with the structure and function of cell membranes, contractile systems, cellular organelles, and membrane channels, transporters, and pumps are encouraged. Studies dealing with integrated regulation of cellular function, including mechanisms of signal transduction, development, gene expression, cell-to-cell interactions, and the cell physiology of pathophysiological states, are also eagerly sought. Interdisciplinary studies that apply the approaches of biochemistry, biophysics, molecular biology, morphology, and immunology to the determination of new principles in cell physiology are especially welcome.