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本文引用的文献

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Induction of a cross-reactive antibody response to influenza virus M2 antigen in pigs by using a Sendai virus vector.利用仙台病毒载体诱导猪对流感病毒M2抗原产生交叉反应性抗体应答。
Vet Immunol Immunopathol. 2012 Mar 15;146(1):92-6. doi: 10.1016/j.vetimm.2012.01.017. Epub 2012 Jan 26.
2
Cellular immune responses to nine Mycobacterium tuberculosis vaccine candidates following intranasal vaccination.经鼻腔接种后九种结核分枝杆菌候选疫苗的细胞免疫应答。
PLoS One. 2011;6(7):e22718. doi: 10.1371/journal.pone.0022718. Epub 2011 Jul 25.
3
Influenza virus-like particles containing M2 induce broadly cross protective immunity.含 M2 的流感病毒样颗粒诱导广泛交叉保护免疫。
PLoS One. 2011 Jan 18;6(1):e14538. doi: 10.1371/journal.pone.0014538.
4
Universal vaccine based on ectodomain of matrix protein 2 of influenza A: Fc receptors and alveolar macrophages mediate protection.基于甲型流感病毒基质蛋白 2 胞外域的通用疫苗:Fc 受体和肺泡巨噬细胞介导保护作用。
J Immunol. 2011 Jan 15;186(2):1022-31. doi: 10.4049/jimmunol.0902147. Epub 2010 Dec 17.
5
Intranasal immunization with influenza VLPs incorporating membrane-anchored flagellin induces strong heterosubtypic protection.鼻腔内接种含有膜锚定鞭毛蛋白的流感 VLPs 可诱导强烈的异源保护。
PLoS One. 2010 Nov 29;5(11):e13972. doi: 10.1371/journal.pone.0013972.
6
Antiserum against the conserved nine amino acid N-terminal peptide of influenza A virus matrix protein 2 is not immunoprotective.抗流感 A 病毒基质蛋白 2 的保守九氨基酸 N 端肽的抗血清没有免疫保护作用。
J Gen Virol. 2011 Feb;92(Pt 2):301-6. doi: 10.1099/vir.0.027086-0. Epub 2010 Oct 21.
7
A simple method for the preparation of monodisperse protein-loaded microspheres with high encapsulation efficiencies.一种制备具有高包封效率的单分散蛋白载药微球的简单方法。
Eur J Pharm Biopharm. 2010 Nov;76(3):336-41. doi: 10.1016/j.ejpb.2010.07.013. Epub 2010 Aug 4.
8
Tyrosines in the influenza A virus M2 protein cytoplasmic tail are critical for production of infectious virus particles.流感 A 病毒 M2 蛋白细胞质尾部的酪氨酸对于产生感染性病毒颗粒至关重要。
J Virol. 2010 Sep;84(17):8765-76. doi: 10.1128/JVI.00853-10. Epub 2010 Jun 23.
9
The co-administration of CpG-ODN influenced protective activity of influenza M2e vaccine.CpG-寡脱氧核苷酸(CpG-ODN)的联合使用影响了流感M2e疫苗的保护活性。
Vaccine. 2009 Jul 9;27(32):4320-4. doi: 10.1016/j.vaccine.2009.04.075. Epub 2009 May 14.
10
A vault nanoparticle vaccine induces protective mucosal immunity.一种穹顶纳米颗粒疫苗可诱导保护性黏膜免疫。
PLoS One. 2009;4(4):e5409. doi: 10.1371/journal.pone.0005409. Epub 2009 Apr 30.

构象稳定的流感 M2e 自组装纳米簇作为广泛交叉保护的流感疫苗。

Nanoclusters self-assembled from conformation-stabilized influenza M2e as broadly cross-protective influenza vaccines.

机构信息

Department of Microbiology and Immunology, and Emory Vaccine Center, Emory University School of Medicine, Atlanta, GA, USA.

Georgia Institute of Technology, School of Chemical and Biomolecular Engineering, Atlanta, GA, USA.

出版信息

Nanomedicine. 2014 Feb;10(2):473-82. doi: 10.1016/j.nano.2013.08.005. Epub 2013 Aug 27.

DOI:10.1016/j.nano.2013.08.005
PMID:23988715
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3948190/
Abstract

UNLABELLED

Influenza vaccines with broad cross-protection are urgently needed. The highly conserved ectodomain of the influenza matrix protein 2 (M2e) can be a promising candidate if its low immunogenicity was overcome. In this study, we generated protein nanoclusters self-assembled from conformation-stabilized M2e tetramers (tM2e) to improve its immunogenicity. The resulting nanoclusters showed an average hydrodynamic diameter of 227 nm. Vaccination with the nanoclusters by an intranasal route elicited high levels of serum antigen-specific IgG in mice (approximately 100-fold higher than that obtained with soluble tM2e), as well as antigen-specific T cell and mucosal antibody responses. The immunity conferred complete protection against lethal challenge with homo- as well as heterosubtypic viruses. These results demonstrate that nanoclusters assembled from conformation-stabilized M2e are promising as a potential universal influenza A vaccine. Self-assembly into nanoclusters represents a novel approach for increasing the immunogenicity of vaccine antigens.

FROM THE CLINICAL EDITOR

In order to develop more effective influenza vaccination, the highly conserved ectodomain of M2e could be a promising candidate. Unfortunately, it is a weak antigen for vaccination purposes. In this study, self-assembled protein nanoclusters of tM2e were generated and tested. The nanoclusters demonstrated superior vaccination properties, with complete protection against lethal challenge in the studied rodent model, raising hope for the introduction of similar vaccines to challenge human influenza outbreaks.

摘要

未加标签

迫切需要具有广泛交叉保护作用的流感疫苗。如果能够克服其低免疫原性,流感基质蛋白 2(M2e)的高度保守的外域可以成为一个有希望的候选物。在这项研究中,我们生成了由构象稳定的 M2e 四聚体(tM2e)自组装而成的蛋白纳米簇,以提高其免疫原性。所得纳米簇的平均水动力直径为 227nm。通过鼻腔途径用纳米簇进行疫苗接种可在小鼠中引发高水平的血清抗原特异性 IgG(比可溶性 tM2e 高约 100 倍),以及抗原特异性 T 细胞和黏膜抗体反应。这种免疫可完全保护免受同源和异源病毒的致死性攻击。这些结果表明,由构象稳定的 M2e 自组装而成的纳米簇有望成为一种有前途的通用流感 A 疫苗。自组装成纳米簇代表了提高疫苗抗原免疫原性的一种新方法。

临床编辑

为了开发更有效的流感疫苗接种,M2e 的高度保守外域可能是一个有前途的候选物。不幸的是,它是一种用于疫苗接种的弱抗原。在这项研究中,生成并测试了 tM2e 的自组装蛋白纳米簇。纳米簇表现出优越的疫苗接种特性,在研究的啮齿动物模型中完全保护免受致死性攻击,为引入类似的疫苗来应对人类流感爆发带来了希望。