Role of prior immunity in binding to spike of “future” Omicron subvariants

IF 1.4 4区 医学 Q4 IMMUNOLOGY Indian Journal of Medical Microbiology Pub Date : 2024-05-30 DOI:10.1016/j.ijmmb.2024.100615
Deepayan Biswas , Gokulnath Mahalingam , Rajesh Kumar Subaschandrabose , Sangeetha Priya , Rohini Ramachandran , Sevanthy Suresh , Tamil Venthan Mathivanan , Nelson Vijaykumar Balu , Kavitha Selvaraj , Arun Jose Nellickal , Pamela Christudoss , Prasanna Samuel , Ramya Devi KT , Srujan Marepally , Mahesh Moorthy
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Abstract

Background

Throughout the COVID-19 pandemic, virus evolution and large-scale vaccination programs have caused multiple exposures to SARS CoV-2 spike protein, resulting in complex antibody profiles. The binding of these to spike protein of “future” variants in the context of such heterogeneous exposure has not been studied.

Methods

We tested archival sera (Delta and Omicron period) stratified by anti-spike antibody (including IgG) levels for reactivity to Omicron-subvariants(BA.1, BA.2,BA.2.12.1, BA.2.75, BA.4/5 and BF.7) spike protein. Assessed antigenic distance between groups using Antigenic Cartography and performed hierarchical clustering of antibody data in a Euclidean distance framework.

Results

Antibody (including IgG) antibody reactivity to Wild-type (CLIA) and subvariants (ELISA) spike protein were similar between periods (p > 0.05). Both 'High S′ and ‘Low S’ of Delta and Omicron periods were closely related to “future” subvariants by Antigenic Cartography. Sera from different S groups clustered together with ‘Low S’ interspersed between ‘High S’ on hierarchical clustering, suggesting common binding sites. Further, anti-spike antibodies (including IgG) to Wild-type (S1/S2 and Trimeric S) clustered with Omicron-subvariant binding antibodies.

Conclusions

Hybrid immunity caused by cumulative virus exposure in Delta or Omicron periods resulted in equivalent binding to “future” variants, which might be due to binding to conserved regions of spike protein of future variants. A prominent finding is that the ‘Low S’ antibody demonstrates similar binding.

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先期免疫在与 "未来 "奥米克龙亚变体的尖峰结合中的作用。
背景:在整个 COVID-19 大流行期间,病毒进化和大规模疫苗接种计划造成了多次接触 SARS CoV-2 尖峰蛋白的机会,从而产生了复杂的抗体谱。在这种异质性暴露的背景下,这些抗体与 "未来 "变体尖峰蛋白的结合情况尚未得到研究:我们检测了按抗尖峰抗体(包括 IgG)水平分层的档案血清(Delta 和 Omicron 时期)与 Omicron 亚变体(BA.1、BA.2、BA.2.12.1、BA.2.75、BA.4/5 和 BF.7)尖峰蛋白的反应性。使用抗原制图评估组间抗原距离,并在欧氏距离框架内对抗体数据进行分层聚类:不同时期对野生型(CLIA)和亚变体(ELISA)尖峰蛋白的抗体(包括 IgG)反应性相似(p>0.05)。通过抗原图谱分析,德尔塔期和奥米克隆期的 "高 S "和 "低 S "都与 "未来 "亚变体密切相关。不同S组的血清聚在一起,"低S "穿插在 "高S "之间,表明存在共同的结合位点。此外,野生型(S1/S2和三聚体S)的抗尖峰抗体(包括IgG)与Omicron-subvariant结合抗体聚集在一起:结论:在德尔塔期或奥米克隆期累积接触病毒所产生的混合免疫导致与 "未来 "变体的等效结合,这可能是由于与未来变体尖峰蛋白的保守区结合所致。一个突出的发现是 "低 S "抗体显示出相似的结合力。
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
CiteScore
2.20
自引率
0.00%
发文量
154
审稿时长
73 days
期刊介绍: Manuscripts of high standard in the form of original research, multicentric studies, meta analysis, are accepted. Current reports can be submitted as brief communications. Case reports must include review of current literature, clinical details, outcome and follow up. Letters to the editor must be a comment on or pertain to a manuscript already published in the IJMM or in relation to preliminary communication of a larger study. Review articles, Special Articles or Guest Editorials are accepted on invitation.
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