佐剂
甘露聚糖
免疫学
模式识别受体
炎症
刺激
受体
医学
干扰素
抗体
免疫系统
接种疫苗
抗原
淋巴结
细胞因子
免疫
生物
获得性免疫系统
趋化因子
单克隆抗体
抗体反应
封锁
第一行
疫苗佐剂
中和抗体
信使核糖核酸
疫苗效力
先天免疫系统
肿瘤坏死因子α
糖蛋白
淋巴
T细胞
作者
Kautilya K. Jena,Pengxiang Qu,Lauren Baracco,Shahab Saghaei,Keerti,Zahra Allahyari,Daniël Boehmer,Moriah Mitchell,Carly Dillen,Haiyun Li,Enqi Liu,Valentina Poli,Océane Dufies,David P. Hoytema van Konijnenburg,Roberto Spreafico,Caihong Bi,Rebecca Hall,Michael Kruppa,Zuchao Ma,Amy Gravitte
标识
DOI:10.1038/s41590-026-02517-3
摘要
The activation of pattern recognition receptors (PRRs) orchestrates inflammation and regulates adaptive immunity. To test whether tuning inflammation through PRR stimulation enhanced the efficacy of mRNA vaccines, we combined an mRNA-based vaccine generated against the ancestral spike protein of SARS-CoV-2 with mannadjuvant, a formulation of fungal mannan and aluminum hydroxide targeting the PRR dectin-2. In mice and non-human primates, mannadjuvant increased the magnitude and durability of the response elicited by the mRNA-based vaccine, and it also led to the induction of neutralizing antibodies directed against variants of concern with a high escape capacity, overcoming antigenic imprinting. Mechanistically, prolonged type I interferon (IFN) production and potentiated interleukin-1 (IL-1) signaling locally within the draining lymph node in mice or in human cells were necessary and sufficient to exert the effect of mannadjuvant. Our data indicate that antifungal PRRs can be harnessed to create more potent and durable mRNA-based vaccines. Jena, Qu et al. show that mannadjuvant, a formulation of fungal mannan and aluminum hydroxide, increases the magnitude, durability and breadth of the response elicited by mRNA-based vaccines against SARS-CoV-2 variants in mice and non-human primates.
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