随着 COVID 感染后时间的推移以及 COVID 长期患者体内干扰素基因表达的下降。

Infectious diseases (London, England) Pub Date : 2025-01-01 Epub Date: 2024-08-20 DOI:10.1080/23744235.2024.2389481

A Gómez-Carballa, S Pischedda, J Pardo-Seco, J Gómez-Rial, F Martinón-Torres, A Salas

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引用次数: 0

摘要

背景：干扰素（IFNs）是抵御病毒和其他病原体的第一道防线。有研究表明，这些糖蛋白的释放受阻和失控会导致组织损伤，并解释冠状病毒病 2019（COVID-19）严重进展的原因。然而，它们在长COVID综合征（LC）中的潜在作用仍有待商榷：本研究旨在进一步揭示 IFNs（及相关基因）基因表达模式在 COVID-19 和 LC 患者病情进展中可能发挥的作用：我们进行了一项多队列研究，分析了五组急性COVID-19（n = 541个样本）和LC患者（n = 188个样本）的IFN基因表达模式（使用不同的IFN基因签名），并将其与在三种自身免疫性疾病（系统性红斑狼疮[n = 242]、系统性硬化症[n = 91]和斯约格伦综合征[n = 282]）中观察到的模式进行了比较：数据显示，虽然干扰素特征在严重的 COVID-19 患者和自身免疫性疾病中强烈上调，但在 LC 患者中，干扰素特征会随着症状出现的时间而衰减。IFN相关术语的差异通路分析表明，在自身免疫性疾病（IFN-I/II）和严重COVID-19（IFN-I/II/III）中，IFN过度激活，而在LC（IFN-I/III）中，这些通路大多失活或下调。通过分析六个 LC 蛋白质组数据集，我们没有发现 IFNs 在这种情况下发挥作用的证据：我们的研究结果表明，IFN 基因表达失活所介导的细胞因子耗竭可能是 LC 的驱动因素。

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Interferon gene expression declines over time post-COVID infection and in long COVID patients.

Background: Interferons (IFNs) represent a first-line defense against viruses and other pathogens. It has been shown that an impaired and uncontrolled release of these glycoproteins can result in tissue damage and explain severe progression of coronavirus disease 2019 (COVID-19). However, their potential role in Long-COVID syndrome (LC) remains debateable.

Objectives: The objective of the present study is to shed further light on the possible role of IFNs (and related genes) gene expression patterns in the progression of COVID-19 and LC patients.

Methods: We carried out a multi-cohort study by analyzing the IFN gene expression patterns (using different IFN gene signatures) in five cohorts of acute COVID-19 (n = 541 samples) and LC patients (n = 188), and compared them to patterns observed in three autoimmune diseases (systemic lupus erythematous [n = 242], systemic sclerosis [n = 91], and Sjögren's syndrome [n = 282]).

Results: The data show that, while the interferon signatures are strongly upregulated in severe COVID-19 patients and autoimmune diseases, it decays with the time from symptoms onset and in LC patients. Differential pathway analysis of IFN-related terms indicates an over activation in autoimmune diseases (IFN-I/II) and severe COVID-19 (IFN-I/II/III), while these pathways are mostly inactivated or downregulated in LC (IFN-I/III). By analyzing six proteomic LC datasets, we did not find evidence of a role of IFNs in this condition.

Conclusion: Our findings suggest a potential role of cytokine exhaustion mediated by IFN gene expression inactivation as a possible driver of LC.

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Infectious diseases (London, England)

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