A humanised ACE2, TMPRSS2, and FCGRT mouse model reveals the protective efficacy of anti-receptor binding domain antibodies elicited by SARS-CoV-2 hybrid immunity.

IF 10.8 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL EBioMedicine Pub Date : 2025-03-01 Epub Date: 2025-02-27 DOI:10.1016/j.ebiom.2025.105619

Fernanda Ana-Sosa-Batiz, Shailendra Kumar Verma, Norazizah Shafee, Robyn Miller, Chris Conner, Kathryn M Hastie, Julia Timis, Erin Maule, Michael N Nguyen, Linda Tran, Krithik Varghese, Henry Madany, Audrey Elizabeth Street, Michelle Zandonatti, Meng Ling Moi, Kurt Jarnagin, David R Webb, Erica Ollmann Saphire, Kenneth Kim, Sujan Shresta

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Abstract

Background: Despite the importance of vaccination- and infection-elicited antibodies (Abs) to SARS-CoV-2 immunity, current mouse models do not fully capture the dynamics of Ab-mediated immunity in vivo, including potential contributions of the neonatal Fc receptor, encoded by FCGRT.

Methods: We generated triple knock-in (TKI) mice expressing human ACE2, TMPRSS2, and FCGRT; and evaluated the protective efficacy of anti-SARS-CoV-2 monoclonal Abs (mAbs) and plasma from individuals with immunity elicited by vaccination alone plus SARS-CoV-2 infection-induced (hybrid) immunity.

Findings: A human anti-SARS-CoV-2 mAb harbouring a half-life-extending mutation, but not the wild-type mAb, exhibited prolonged half-life in TKI mice and protected against lung infection with Omicron BA.2, validating the utility of these mice for evaluating therapeutic Abs. Pooled plasma from individuals with hybrid immunity to Delta, but not from vaccinated-only individuals, cleared infectious Delta from the lungs of TKI mice (P < 0.01), even though the two plasma pools had similar Delta-binding and -neutralising Ab titres in vitro. Similarly, plasma from individuals with hybrid Omicron BA.1/2 immunity, but not hybrid Delta immunity, decreased lung infection (P < 0.05) with BA.5 in TKI mice, despite the plasma pools having comparable BA.5-binding and -neutralising titres in vitro. Depletion of receptor-binding domain-targeting Abs from hybrid immune plasma abrogated their protection against infection.

Interpretation: These results demonstrate the utility of TKI mice as a tool for the development of anti-SARS-CoV-2 mAb therapeutics, show that in vitro neutralisation assays do not accurately predict in vivo protection, and highlight the importance of hybrid immunity for eliciting protective anti-receptor-binding domain Abs.

Funding: This work was funded by grants from the e-Asia Joint Research Program (N10A650706 and N10A660577 to MLM, in collaboration with SS); the NIH (U19 AI142790-02S1 to EOS and SS and R44 AI157900 to KJ); the GHR Foundation (to SS and EOS); the Overton family (to SS and EOS); the Arvin Gottlieb Foundation (to SS and EOS), the Prebys Foundation (to SS); and the American Association of Immunologists Fellowship Program for Career Reentry (to FASB).

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人源化ACE2、TMPRSS2和FCGRT小鼠模型揭示了SARS-CoV-2杂交免疫诱导的抗受体结合域抗体的保护作用。

背景：尽管疫苗接种和感染引发的抗体（Abs）对SARS-CoV-2免疫很重要，但目前的小鼠模型并没有完全捕捉到体内抗体介导的免疫动力学，包括新生儿Fc受体（由FCGRT编码）的潜在贡献。方法：制备表达人ACE2、TMPRSS2和FCGRT的三敲入（TKI）小鼠；并评价抗SARS-CoV-2单克隆抗体（mAbs）和单独接种免疫外加SARS-CoV-2感染诱导（混合）免疫个体血浆的保护作用。研究发现：一种人类抗sars - cov -2单抗（而非野生型单抗）在TKI小鼠中显示出半衰期延长，并保护小鼠免受Omicron BA.2的肺部感染，验证了这些小鼠用于评估治疗性抗体的效用。来自对Delta具有混合免疫的个体的血浆，而不是来自仅接种疫苗的个体的血浆，清除了TKI小鼠肺部的感染性Delta (P解释：这些结果证明了TKI小鼠作为开发抗sars - cov -2单抗治疗方法的工具的实用性，表明体外中和试验不能准确预测体内保护，并强调了混合免疫对引发保护性抗受体结合域抗体的重要性。资助：这项工作由e-Asia联合研究计划资助（N10A650706和N10A660577 to MLM，与SS合作）；NIH (U19 AI142790-02S1到EOS和SS和R44 AI157900到KJ)；GHR基金会（致SS和EOS）；奥弗顿家族（对SS和EOS）；阿尔文·戈特利布基金会（赠予SS和EOS）、普雷比斯基金会（赠予SS）；以及美国免疫学家协会职业再入奖学金计划（FASB）。

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来源期刊

EBioMedicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology

CiteScore

17.70

自引率

0.90%

发文量

579

审稿时长

5 weeks

期刊介绍： eBioMedicine is a comprehensive biomedical research journal that covers a wide range of studies that are relevant to human health. Our focus is on original research that explores the fundamental factors influencing human health and disease, including the discovery of new therapeutic targets and treatments, the identification of biomarkers and diagnostic tools, and the investigation and modification of disease pathways and mechanisms. We welcome studies from any biomedical discipline that contribute to our understanding of disease and aim to improve human health.