Intranasal booster drives class switching and homing of memory B cells for mucosal IgA response
Si Chen, Zhengyuan Zhang, Zihan Lin, Li Yin, Lishan Ning, Wenming Liu, Qian Wang, Chenchen Yang, Bo Feng, Ying Feng, Yongping Wang, Hengchun Li, Ping He, Huan Liang, Yichu Liu, Zhixia Li, Bo Liu, Yang Li, Diana Boraschi, Linbing Qu, Xuefeng Niu, Nanshan Zhong, Pingchao Li, Ling Chen
Si Chen, Zhengyuan Zhang, Zihan Lin, Li Yin, Lishan Ning, Wenming Liu, Qian Wang, Chenchen Yang, Bo Feng, Ying Feng, Yongping Wang, Hengchun Li, Ping He, Huan Liang, Yichu Liu, Zhixia Li, Bo Liu, Yang Li, Diana Boraschi, Linbing Qu, Xuefeng Niu, Nanshan Zhong, Pingchao Li, Ling Chen
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Research Article Immunology Infectious disease Public Health

Intranasal booster drives class switching and homing of memory B cells for mucosal IgA response

Abstract

Mucosal secretory IgA (sIgA) plays a central role in protecting against the invasion of respiratory pathogen via the upper respiratory tract. To understand how intranasal booster induces mucosal sIgA response in humans, we first used liquid chromatography–tandem mass spectrometry for peptide identification of immunoglobulin (MS Ig-seq) and single-cell B cell receptor sequencing (scBCR-seq) to identify 42 mucosal spike-specific sIgA monoclonal antibodies (mAbs) after intranasal booster. These mucosal sIgA mAbs exhibited enhanced neutralization up to 100-fold against SARS-CoV-2 variants compared with their monomeric IgG and IgA isotypes. Deep sequencing and longitudinal analysis of B cell receptor repertoires revealed that intranasal booster restimulates memory B cells primed by intramuscular vaccination to undergo IgA class switching, somatic hypermutation, and clonal expansion. Single-cell RNA-seq (scRNA-seq) revealed that intranasal booster upregulated the expression of mucosal homing receptors in spike-specific IgA-expressing B cells. This increase coincided with a transient increase of cytokines and chemokines that facilitate B cell recruitment in the nasal mucosa. Our findings demonstrate that intranasal booster can be an effective strategy for inducing upper respiratory mucosal sIgA and establishing mucosal immune protection.

Authors

Si Chen, Zhengyuan Zhang, Zihan Lin, Li Yin, Lishan Ning, Wenming Liu, Qian Wang, Chenchen Yang, Bo Feng, Ying Feng, Yongping Wang, Hengchun Li, Ping He, Huan Liang, Yichu Liu, Zhixia Li, Bo Liu, Yang Li, Diana Boraschi, Linbing Qu, Xuefeng Niu, Nanshan Zhong, Pingchao Li, Ling Chen

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Figure 1

Neutralizing and spike-binding activities of purified nasal sIgA, serum IgG, and IgA.

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Neutralizing and spike-binding activities of purified nasal sIgA, serum ...
(A) Neutralizing activities of 6 paired purified nasal sIgA, serum IgG, and serum IgA samples against WT, BA.1, BA.5, and XBB.1.5 were assessed using a lentivirus-based pseudovirus system. The results are presented as 50% inhibitory concentration (IC50) in nM. Samples showing no detectable neutralization activity at the highest concentration (1,000 μg/mL) were assigned an IC50 value of 6,666.7 nM (dashed line), representing no neutralization. Geomean values (n = 6) are reported above the graph. (B) The ratios of IC50 between paired IgG/sIgA, IgA/sIgA, and IgG/IgA for each donor are presented. Mean values (n = 6) are reported above the graph. (C) Binding activities of 6 paired purified nasal sIgA, serum IgG and serum IgA samples against WT, BA.1, BA.5, and XBB.1.5 spike proteins were measured by ELISA. Results are presented as 50% effective concentration (EC50) in nM. Data are calculated as geomean (n = 6) and reported above the graph. (D) The ratios of EC50 between paired IgG/sIgA, IgA/sIgA, and IgG/IgA for each donor are presented. Mean values (n = 6) are reported above the graph. (E and F) Correlation analysis was performed between: nasal sIgA neutralization activity (IC50) and binding activity (EC50) (E), nasal sIgA and serum IgG neutralization activity (IC50) (F). Statistical significance was determined using Spearman’s rank correlation (coefficients and P values are shown).