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Fc-empowered exosomes with superior epithelial layer transmission and lung distribution ability for pulmonary vaccination
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作者 Fan Meng Haonan Xing +9 位作者 Jingru Li Yingqi Liu Li Tang Zehong Chen xiran jia Zenglin Yin Jing Yi Mei Lu Xiuli Gao Aiping Zheng 《Bioactive Materials》 SCIE CSCD 2024年第12期573-586,共14页
Mucosal vaccines offer potential benefits over parenteral vaccines for they can trigger both systemic immune protection and immune responses at the predominant sites of pathogen infection.However,the defense function ... Mucosal vaccines offer potential benefits over parenteral vaccines for they can trigger both systemic immune protection and immune responses at the predominant sites of pathogen infection.However,the defense function of mucosal barrier remains a challenge for vaccines to overcome.Here,we show that surface modification of exosomes with the fragment crystallizable(Fc)part from IgG can deliver the receptor-binding domain(RBD)of SARS-CoV-2 to cross mucosal epithelial layer and permeate into peripheral lung through neonatal Fc receptor(FcRn)mediated transcytosis.The exosomes F-L-R-Exo are generated by genetically engineered dendritic cells,in which a fusion protein Fc-Lamp2b-RBD is expressed and anchored on the membrane.After intratracheally administration,F-L-R-Exo is able to induce a high level of RBD-specific IgG and IgA antibodies in the animals’lungs.Furthermore,potent Th1 immune-biased T cell responses were also observed in both systemic and mucosal immune responses.F-L-R-Exo can protect the mice from SARS-CoV-2 pseudovirus infection after a challenge.These findings hold great promise for the development of a novel respiratory mucosal vaccine approach. 展开更多
关键词 Fc EXOSOMES Vaccines Mucosal immunity SARS-CoV-2
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