Signal Transduction and Targeted Therapy (Jul 2024)

Intranasal adenovirus-vectored Omicron vaccine induced nasal immunoglobulin A has superior neutralizing potency than serum antibodies

  • Si Chen,
  • Zhengyuan Zhang,
  • Qian Wang,
  • Qi Yang,
  • Li Yin,
  • Lishan Ning,
  • Zhilong Chen,
  • Jielin Tang,
  • Weiqi Deng,
  • Ping He,
  • Hengchun Li,
  • Linjing Shi,
  • Yijun Deng,
  • Zijian Liu,
  • Hemeng Bu,
  • Yaohui Zhu,
  • Wenming Liu,
  • Linbing Qu,
  • Liqiang Feng,
  • Xiaoli Xiong,
  • Baoqing Sun,
  • Nanshan Zhong,
  • Feng Li,
  • Pingchao Li,
  • Xinwen Chen,
  • Ling Chen

DOI
https://doi.org/10.1038/s41392-024-01906-0
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 12

Abstract

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Abstract The upper respiratory tract is the initial site of SARS-CoV-2 infection. Nasal spike-specific secretory immunoglobulin A (sIgA) correlates with protection against Omicron breakthrough infection. We report that intranasal vaccination using human adenovirus serotype 5 (Ad5) vectored Omicron spike in people who previously vaccinated with ancestral vaccine could induce robust neutralizing sIgA in the nasal passage. Nasal sIgA was predominantly present in dimeric and multimeric forms and accounted for nearly 40% of total proteins in nasal mucosal lining fluids (NMLFs). A low-level IgG could also be detected in NMLFs but not IgM, IgD, and IgE. After a complete nasal wash, sIgA in the nasal passage could be replenished rapidly within a few hours. A comparison of purified paired serum IgA, serum IgG, and nasal sIgA from the same individuals showed that sIgA was up to 3-logs more potent than serum antibodies in binding to spikes and in neutralizing Omicron subvariants. Serum IgG and IgA failed to neutralize XBB and BA.2.86, while nasal sIgA retained potent neutralization against these newly emerged variants. Further analysis showed that sIgA was more effective than IgG or IgA in blocking spike-mediated cell-to-cell transmission and protecting hACE2 mice from XBB challenge. Using a sIgA monoclonal antibody as a reference, we estimated that the total nasal sIgA contains about 2.6–3.9% spike-specific sIgA in NMLFs collected approximately one month after intranasal vaccination. Our study provided insights for developing intranasal vaccines that can induce sIgA to build an effective and mutation-resistant first-line immune barrier against constantly emerging variants.