N-glycosylation of the SARS-CoV-2 spike protein at Asn331 and Asn343 is involved in spike-ACE2 binding, virus entry, and regulation of IL-6

IF 1.9 4区 医学 Q4 IMMUNOLOGY
Tuhin Das, Shuhong Luo, Hao Tang, Jianmin Fang, Yinging Mao, Haw-Han Yen, Sabyasachi Dash, Asif Shajahan, Lauren Pepi, Steven Huang, Valerie S. Jones, Shehuo Xie, Gordon F. Huang, Jinqiao Lu, Blake Anderson, Benyue Zhang, Parastoo Azadi, Ruo-Pan Huang
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Abstract

The coronavirus disease 2019 (COVID-19) pandemic is an ongoing global public health crisis. The causative agent, the SARS-CoV-2 virus, enters host cells via molecular interactions between the viral spike protein and the host cell ACE2 surface protein. The SARS-CoV-2 spike protein is extensively decorated with up to 66 N-linked glycans. Glycosylation of viral proteins is known to function in immune evasion strategies but may also function in the molecular events of viral entry into host cells. Here, we show that N-glycosylation at Asn331 and Asn343 of SARS-CoV-2 spike protein is required for it to bind to ACE2 and for the entry of pseudovirus harboring the SARS-CoV-2 spike protein into cells. Interestingly, high-content glycan binding screening data have shown that N-glycosylation of Asn331 and Asn343 of the RBD is important for binding to the specific glycan molecule G4GN (Galβ−1,4 GlcNAc), which is critical for spike-RBD-ACE2 binding. Furthermore, IL-6 was identified through antibody array analysis of conditioned media of the corresponding pseudovirus assay. Mutation of N-glycosylation of Asn331 and Asn343 sites of the spike receptor-binding domain (RBD) significantly reduced the transcriptional upregulation of pro-inflammatory signaling molecule IL-6. In addition, IL-6 levels correlated with spike protein levels in COVID-19 patients' serum. These findings establish the importance of RBD glycosylation in SARS-CoV-2 pathogenesis, which can be exploited for the development of novel therapeutics for COVID-19.

Abstract Image

SARS-CoV-2尖峰蛋白在Asn331和Asn343处的N-糖基化参与了尖峰蛋白与ACE2的结合、病毒的进入和IL-6的调节。
2019 年冠状病毒病(COVID-19)大流行是一场持续的全球公共卫生危机。病原体 SARS-CoV-2 病毒通过病毒尖峰蛋白与宿主细胞 ACE2 表面蛋白之间的分子相互作用进入宿主细胞。SARS-CoV-2 的尖峰蛋白被多达 66 个连接的聚糖广泛修饰。已知病毒蛋白的糖基化在免疫逃避策略中起作用,但也可能在病毒进入宿主细胞的分子事件中起作用。在这里,我们发现,SARS-CoV-2尖峰蛋白的Asn331和Asn343处的N-糖基化是其与ACE2结合以及携带SARS-CoV-2尖峰蛋白的假病毒进入细胞所必需的。有趣的是,高含量糖结合筛选数据显示,RBD 的 Asn331 和 Asn343 的 N-糖基化对于与特定的糖分子 G4GN(Galβ-1,4 GlcNAc)结合非常重要,而 G4GN 对于尖峰-RBD-ACE2 的结合至关重要。此外,通过对相应假病毒试验的条件培养基进行抗体阵列分析,还鉴定出了 IL-6。穗状受体结合域(RBD)的Asn331和Asn343位点的N-糖基化突变显著降低了促炎信号分子IL-6的转录上调。此外,IL-6 的水平与 COVID-19 患者血清中穗蛋白的水平相关。这些发现证实了RBD糖基化在SARS-CoV-2发病机制中的重要性,可用于开发针对COVID-19的新型疗法。
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来源期刊
Microbiology and Immunology
Microbiology and Immunology 医学-免疫学
CiteScore
5.20
自引率
3.80%
发文量
78
审稿时长
1 months
期刊介绍: Microbiology and Immunology is published in association with Japanese Society for Bacteriology, Japanese Society for Virology, and Japanese Society for Host Defense Research. It is peer-reviewed publication that provides insight into the study of microbes and the host immune, biological and physiological responses. Fields covered by Microbiology and Immunology include:Bacteriology|Virology|Immunology|pathogenic infections in human, animals and plants|pathogenicity and virulence factors such as microbial toxins and cell-surface components|factors involved in host defense, inflammation, development of vaccines|antimicrobial agents and drug resistance of microbes|genomics and proteomics.
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