Nasopharyngeal specific selection and emergence of SARS-CoV-2 spike fusion peptide mutation P812S during chronic infection

Mark Tsz Kin Cheng, Mazharul Altaf, Darren P. Martin, Christopher Ruis, Benjamin L. Sievers, Kimia Kamelian, Rebecca B. Morse, Adam Abdullahi, Bo Meng, Kata Csiba, Cambridge NIHR Bioresource, Steven A. Kemp, Ravindra K Gupta
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Abstract

Persistent SARS-CoV-2 infections are a likely source of new variants of concern. In a fatal infection in an immunocompromised patient, we find association between viral load and diversity, and abrupt diversification between contemporaneous nasopharyngeal and endotracheal aspirate samples following remdesivir and convalescent plasma treatment. Shared high proportion of G>T mutations suggests spread of viruses from the lower to the upper tract as the patient deteriorated. We identified the S:P812S spike mutation adjacent to the fusion peptide unique to the nasopharyngeal sample site. We find P812S reduced S1/S2 cleavage and decreased entry efficiency in cell lines with a range of ACE2 and TMPRSS2 expression levels. This reduction of infectivity contrasted with reduced susceptibility to neutralising antibodies in sera from vaccinated individuals conferred by P812S at both 37°C and 32°C (simulating upper tract). Thus, S:P812S is a specific adaptation during SARS-CoV-2 intrahost evolution, allowing immune evasion at lower temperatures observed in the upper respiratory tract at the expense of target cell entry efficiency.
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慢性感染期间鼻咽部特异性选择和 SARS-CoV-2 穗状融合肽突变 P812S 的出现
持续的 SARS-CoV-2 感染很可能是令人担忧的新变种的来源。在一名免疫力低下患者的致命感染中,我们发现病毒载量和多样性之间存在关联,并且在雷米替韦和康复血浆治疗后,同期鼻咽和气管吸出物样本中的病毒突然多样化。G>T突变所占比例很高,这表明随着患者病情的恶化,病毒从下呼吸道扩散到了上呼吸道。我们发现了鼻咽样本部位特有的与融合肽相邻的 S:P812S 穗状突变。我们发现 P812S 减少了 S1/S2 的裂解,并降低了 ACE2 和 TMPRSS2 表达水平不同的细胞系的进入效率。这种感染性的降低与 P812S 在 37°C 和 32°C(模拟上呼吸道)条件下降低疫苗接种者血清中中和抗体的敏感性形成了鲜明对比。因此,S:P812S是SARS-CoV-2宿主内进化过程中的一种特殊适应,它允许在上呼吸道的较低温度下以牺牲靶细胞进入效率为代价逃避免疫。
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