Comprehensive mapping of SARS-CoV-2 peptide epitopes for development of a highly sensitive serological test for total and neutralizing antibodies.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Garima Kumar, Sarah Sterrett, Lucinda Hall, Edlue Tabengwa, Kazuhito Honjo, Michael Larimer, Randall S Davis, Paul A Goepfert, Benjamin M Larimer
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Abstract

Quantification of the anti-SARS-CoV-2 antibody response has proven to be a prominent diagnostic tool during the COVID-19 pandemic. Antibody measurements have aided in the determination of humoral protection following infection or vaccination and will likely be essential for predicting the prevalence of population level immunity over the next several years. Despite widespread use, current tests remain limited in part, because antibody capture is accomplished through the use of complete spike and nucleocapsid proteins that contain significant regions of overlap with common circulating coronaviruses. To address this limitation, a unique epitope display platform utilizing monovalent display and protease-driven capture of peptide epitopes was used to select high affinity peptides. A single round of selection using this strategy with COVID-19 positive patient plasma samples revealed surprising differences and specific patterns in the antigenicity of SARS-CoV-2 proteins, especially the spike protein. Putative epitopes were assayed for specificity with convalescent and control samples, and the individual binding kinetics of peptides were also determined. A subset of prioritized peptides was used to develop an antibody diagnostic assay that showed low cross reactivity while detecting 37% more positive antibody cases than a gold standard FDA EUA test. Finally, a subset of peptides were compared with serum neutralization activity to establish a 2 peptide assay that strongly correlates with neutralization. Together, these data demonstrate a novel phage display method that is capable of comprehensively and rapidly mapping patient viral antibody responses and selecting high affinity public epitopes for the diagnosis of humoral immunity.

Abstract Image

全面绘制 SARS-CoV-2 多肽表位图,开发高灵敏度的总抗体和中和抗体血清学检验。
在 COVID-19 大流行期间,抗 SARS-CoV-2 抗体反应定量已被证明是一种重要的诊断工具。抗体测量有助于确定感染或接种疫苗后的体液保护,并可能对预测未来几年人群免疫力的普遍性至关重要。尽管目前的检测方法已被广泛使用,但仍存在一定的局限性,部分原因是抗体捕获是通过使用完整的尖峰蛋白和核壳蛋白来实现的,而这些蛋白与常见的循环冠状病毒有很大的重叠区域。为了解决这一局限性,我们采用了一种独特的表位展示平台,利用单价展示和蛋白酶驱动的多肽表位捕获来选择高亲和力的多肽。利用这种策略对 COVID-19 阳性患者血浆样本进行了一轮筛选,发现 SARS-CoV-2 蛋白,尤其是尖峰蛋白的抗原性存在惊人的差异和特异性模式。用康复样本和对照样本检测了推定表位的特异性,还测定了肽的个体结合动力学。优先考虑的肽子集被用于开发抗体诊断测定,该测定显示出较低的交叉反应性,同时检测出的抗体阳性病例比 FDA EUA 黄金标准测试多 37%。最后,将肽的子集与血清中和活性进行比较,建立了与中和活性密切相关的 2 肽检测方法。这些数据共同证明了一种新型噬菌体展示方法能够全面、快速地绘制患者的病毒抗体反应图,并为体液免疫诊断选择高亲和力的公共表位。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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