Fan Meng , Haonan Xing , Jingru Li , Yingqi Liu , Li Tang , Zehong Chen , Xiran Jia , Zenglin Yin , Jing Yi , Mei Lu , Xiuli Gao , Aiping Zheng
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引用次数: 0
摘要
与肠外疫苗相比,粘膜疫苗具有潜在的优势,因为它们既能引发全身免疫保护,又能在病原体感染的主要部位引发免疫反应。然而,粘膜屏障的防御功能仍然是疫苗需要克服的一个挑战。在这里,我们发现,用IgG的可结晶片段(Fc)部分对外泌体进行表面修饰,可将SARS-CoV-2的受体结合域(RBD)通过新生儿Fc受体(FcRn)介导的转囊作用,穿过粘膜上皮层并渗透到外周肺。外泌体 F-L-R-Exo 由基因工程树突状细胞产生,其中的融合蛋白 Fc-Lamp2b-RBD 被表达并固定在细胞膜上。气管内给药后,F-L-R-Exo 能在动物肺部诱导出高水平的 RBD 特异性 IgG 和 IgA 抗体。此外,在全身和粘膜免疫反应中也观察到了强效的 Th1 免疫偏向 T 细胞反应。F-L-R-Exo能保护小鼠免受SARS-CoV-2伪病毒感染。这些发现为开发新型呼吸道粘膜疫苗方法带来了巨大希望。
Fc-empowered exosomes with superior epithelial layer transmission and lung distribution ability for pulmonary vaccination
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.
Bioactive MaterialsBiochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
28.00
自引率
6.30%
发文量
436
审稿时长
20 days
期刊介绍:
Bioactive Materials is a peer-reviewed research publication that focuses on advancements in bioactive materials. The journal accepts research papers, reviews, and rapid communications in the field of next-generation biomaterials that interact with cells, tissues, and organs in various living organisms.
The primary goal of Bioactive Materials is to promote the science and engineering of biomaterials that exhibit adaptiveness to the biological environment. These materials are specifically designed to stimulate or direct appropriate cell and tissue responses or regulate interactions with microorganisms.
The journal covers a wide range of bioactive materials, including those that are engineered or designed in terms of their physical form (e.g. particulate, fiber), topology (e.g. porosity, surface roughness), or dimensions (ranging from macro to nano-scales). Contributions are sought from the following categories of bioactive materials:
Bioactive metals and alloys
Bioactive inorganics: ceramics, glasses, and carbon-based materials
Bioactive polymers and gels
Bioactive materials derived from natural sources
Bioactive composites
These materials find applications in human and veterinary medicine, such as implants, tissue engineering scaffolds, cell/drug/gene carriers, as well as imaging and sensing devices.
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