Proteomics of circulating extracellular vesicles reveals diverse clinical presentations of COVID-19 but fails to identify viral peptides.

IF 4.6 2区医学 Q2 IMMUNOLOGY

Frontiers in Cellular and Infection Microbiology Pub Date : 2024-11-06 eCollection Date: 2024-01-01 DOI:10.3389/fcimb.2024.1442743

Melisa Gualdrón-López, Alberto Ayllon-Hermida, Núria Cortes-Serra, Patricia Resa-Infante, Joan Josep Bech-Serra, Iris Aparici-Herraiz, Marc Nicolau-Fernandez, Itziar Erkizia, Lucia Gutierrez-Chamorro, Silvia Marfil, Edwards Pradenas, Carlos Ávila Nieto, Bernat Cucurull, Sergio Montaner-Tarbés, Magdalena Muelas, Ruth Sotil, Ester Ballana, Victor Urrea, Lorenzo Fraile, Maria Montoya, Julia Vergara, Joaquim Segales, Jorge Carrillo, Nuria Izquierdo-Useros, Julià Blanco, Carmen Fernandez-Becerra, Carolina de La Torre, Maria-Jesus Pinazo, Javier Martinez-Picado, Hernando A Del Portillo

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引用次数: 0

Abstract

Extracellular vesicles (EVs) released by virus-infected cells have the potential to encapsulate viral peptides, a characteristic that could facilitate vaccine development. Furthermore, plasma-derived EVs may elucidate pathological changes occurring in distal tissues during viral infections. We hypothesized that molecular characterization of EVs isolated from COVID-19 patients would reveal peptides suitable for vaccine development. Blood samples were collected from three cohorts: severe COVID-19 patients (G1), mild/asymptomatic cases (G2), and SARS-CoV-2-negative healthcare workers (G3). Samples were obtained at two time points: during the initial phase of the pandemic in early 2020 (m0) and eight months later (m8). Clinical data analysis revealed elevated inflammatory markers in G1. Notably, non-vaccinated individuals in G1 exhibited increased levels of neutralizing antibodies at m8, suggesting prolonged exposure to viral antigens. Proteomic profiling of EVs was performed using three distinct methods: immunocapture (targeting CD9), ganglioside-capture (utilizing Siglec-1) and size-exclusion chromatography (SEC). Contrary to our hypothesis, this analysis failed to identify viral peptides. These findings were subsequently validated through Western blot analysis targeting the RBD of the SARS-CoV-2 Spike protein's and comparative studies using samples from experimentally infected Syrian hamsters. Furthermore, analysis of the EV cargo revealed a diverse molecular profile, including components involved in the regulation of viral replication, systemic inflammation, antigen presentation, and stress responses. These findings underscore the potential significance of EVs in the pathogenesis and progression of COVID-19.

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循环细胞外囊泡的蛋白质组学揭示了 COVID-19 的多种临床表现，但未能识别病毒肽。

病毒感染细胞释放的胞外囊泡 (EV) 有可能包裹病毒多肽，这一特性有助于疫苗的开发。此外，血浆衍生的EVs可能会阐明病毒感染期间远端组织发生的病理变化。我们假设从 COVID-19 患者体内分离出的 EVs 的分子特征将揭示适合疫苗开发的多肽。我们采集了三个组群的血样：COVID-19 重症患者（G1）、轻症/无症状病例（G2）和 SARS-CoV-2 阴性医护人员（G3）。样本在两个时间点采集：2020 年初大流行初期（m0）和八个月后（m8）。临床数据分析显示，G1 的炎症指标升高。值得注意的是，G1 中未接种疫苗的个体在 m8 时表现出中和抗体水平升高，这表明他们长期暴露于病毒抗原。我们使用三种不同的方法对 EVs 进行了蛋白质组学分析：免疫捕获（以 CD9 为目标）、神经节苷脂捕获（利用 Siglec-1）和大小排阻色谱法（SEC）。与我们的假设相反，这种分析未能识别出病毒肽。随后，通过针对 SARS-CoV-2 Spike 蛋白的 RBD 进行 Western 印迹分析，并使用实验感染的叙利亚仓鼠样本进行比较研究，验证了这些发现。此外，对 EV 货物的分析还揭示了多样化的分子特征，包括参与病毒复制调控、全身炎症、抗原递呈和应激反应的成分。这些发现强调了EVs在COVID-19发病和进展过程中的潜在意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Frontiers in Cellular and Infection Microbiology IMMUNOLOGY-MICROBIOLOGY

CiteScore

7.90

自引率

7.00%

发文量

1817

审稿时长

14 weeks

期刊介绍： Frontiers in Cellular and Infection Microbiology is a leading specialty journal, publishing rigorously peer-reviewed research across all pathogenic microorganisms and their interaction with their hosts. Chief Editor Yousef Abu Kwaik, University of Louisville is supported by an outstanding Editorial Board of international experts. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide. Frontiers in Cellular and Infection Microbiology includes research on bacteria, fungi, parasites, viruses, endosymbionts, prions and all microbial pathogens as well as the microbiota and its effect on health and disease in various hosts. The research approaches include molecular microbiology, cellular microbiology, gene regulation, proteomics, signal transduction, pathogenic evolution, genomics, structural biology, and virulence factors as well as model hosts. Areas of research to counteract infectious agents by the host include the host innate and adaptive immune responses as well as metabolic restrictions to various pathogenic microorganisms, vaccine design and development against various pathogenic microorganisms, and the mechanisms of antibiotic resistance and its countermeasures.