IgG Fucosylation: An Emerging Key Player in the Treatment of Severe COVID-19

IF 11.6 1区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

Engineering Pub Date : 2025-08-12 DOI:10.1016/j.eng.2025.08.004

Caiping Zhao, Jingrong Wang, Yuan Liu, Baoling Shang, Danna Lin, Yao Xiao, Hong Ren, Yue Li, Wen Rui, Xu Zou, Hudan Pan, Liang Liu

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引用次数: 0

Abstract

Protein glycosylation is one of the most vital modifications. Understanding the role of protein glycosylation in coronavirus disease 2019 (COVID-19) is the key elucidating its pathogenesis and developing therapeutic strategies. We conducted a case-control study to examine the total fucosylation levels and the levels of individual immunoglobulin G (IgG) subtypes in the serum of COVID-19 patients. Notably, we identified 13 glycosyltransferase-related and glycosidase-related genes displaying differential expression among COVID-19 patients. Our findings from the detection of serum fucosylation levels in COVID-19 patients revealed a diminished degree of glycosylation. Furthermore, the analysis of the levels of different IgG subtypes revealed an increase in IgG1 fucosylation and a decrease in IgG2 fucosylation, with the latter being linked to patients’ body temperature and disease progression. The change in COVID-19 disease severity from mild to severe may be related to fucosylation. The single-cell sequencing analysis revealed the expression of members of the fucosyltransferase family in the plasma cells and plasmablasts of COVID-19 patients. We leveraged the recommended medication for severe COVID-19, Fuzheng Jiedu Decoction (FZJDD), to confirm the importance of fucosylation in severe COVID-19. The network pharmacology analysis of FZJDD revealed that fucosylation inhibition might contribute to its antiviral effects against COVID-19. We assessed the efficacy of this compound in septic mice, by monitoring serum fucosylation levels, and found that FZJDD significantly alleviated inflammation in lipopolysaccharide (LPS)-induced septic mice. Concurrently, the analysis of plasma fucosylation levels in septic mice indicated a marked decrease in total fucosylation. The glycan analysis revealed the involvement of α1, 6-fucosyltransferase (FUT8) and α-L-fucosidase 1 (FUCA1), a pair of interacting fucosidases, in COVID-19 pathogenesis. This study revealed substantial alterations in fucosylation among patients with severe COVID-19, with the primary variations observed in the IgG2 subtype. These changes are intricately coordinated by the mutual regulation of the FUT8 and FUCA1 enzymes. Furthermore, the endorsement of FZJDD as a recommended therapeutic option for severe COVID-19 underscores the promising potential of defucosylation as a viable treatment strategy for this disease.

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IgG聚焦：治疗重症COVID-19的新兴关键因素

蛋白质糖基化是最重要的修饰之一。了解蛋白糖基化在2019冠状病毒病（COVID-19）中的作用是阐明其发病机制和制定治疗策略的关键。我们通过病例对照研究检测了COVID-19患者血清中总聚焦水平和个体免疫球蛋白G （IgG）亚型水平。值得注意的是，我们发现了13个糖基转移酶相关和糖苷酶相关基因在COVID-19患者中表现出差异表达。我们通过检测COVID-19患者的血清聚焦水平发现糖基化程度降低。此外，对不同IgG亚型水平的分析显示，IgG1集中化增加，IgG2集中化减少，后者与患者的体温和疾病进展有关。COVID-19疾病严重程度从轻度到重度的变化可能与聚焦化有关。单细胞测序分析显示，focusyltransferase家族成员在COVID-19患者的浆细胞和浆母细胞中表达。我们利用重症COVID-19推荐药物扶正解毒汤（FZJDD）来证实聚焦化在重症COVID-19中的重要性。网络药理学分析显示，FZJDD的聚焦抑制作用可能与其抗病毒作用有关。我们通过监测血清聚焦水平来评估该化合物对脓毒症小鼠的疗效，发现FZJDD显著减轻了脂多糖（LPS）诱导的脓毒症小鼠的炎症。同时，对脓毒症小鼠血浆聚焦化水平的分析表明，总聚焦化水平显著降低。糖聚糖分析显示α 1,6 -聚焦转移酶（FUT8）和α-L-聚焦酶1 （FUCA1）这对相互作用的聚焦酶参与了COVID-19的发病机制。该研究揭示了严重COVID-19患者的聚焦化发生了实质性变化，主要变化发生在IgG2亚型中。这些变化是由FUT8和FUCA1酶的相互调节复杂地协调的。此外，FZJDD被批准为重症COVID-19的推荐治疗方案，突显了去聚焦化作为该疾病可行治疗策略的巨大潜力。

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

Engineering Environmental Science-Environmental Engineering

自引率

1.60%

发文量

335

审稿时长

35 days

期刊介绍： Engineering, an international open-access journal initiated by the Chinese Academy of Engineering (CAE) in 2015, serves as a distinguished platform for disseminating cutting-edge advancements in engineering R&D, sharing major research outputs, and highlighting key achievements worldwide. The journal's objectives encompass reporting progress in engineering science, fostering discussions on hot topics, addressing areas of interest, challenges, and prospects in engineering development, while considering human and environmental well-being and ethics in engineering. It aims to inspire breakthroughs and innovations with profound economic and social significance, propelling them to advanced international standards and transforming them into a new productive force. Ultimately, this endeavor seeks to bring about positive changes globally, benefit humanity, and shape a new future.