Mucosal Vaccines against Bacterial and Viral Pathogens

A. N. Suvorov, Т. A. Kramskaya, T. V. Gupalova, Yu. A. Desheva, G. F. Leontieva
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Abstract

The mucosal membranes of the human body play a crucial role in the development, maintenance, and regulation of barrier functions and immune homeostasis, representing an integral component of the overall immune system. Mucosal vaccines elicit immune processes in the lymphoid tissue associated with the mucosal membranes. A critical objective of mucosal immunization is the identification of an antigen delivery vector capable of ensuring optimal vaccine efficacy. The authors of this article have conducted extensive research on the probiotic properties of enterococci over an extended period. They employ a safe and beneficial probiotic strain, Enterococcus faecium L3, as a delivery vector for vaccine antigens. Initially, the gene encoding the pathogenicity factor Bac, derived from group B streptococci (Streptococcus agalactiae), was successfully integrated into the genome of the probiotic strain E. faecium L3. Intravaginal, oral, and intranasal mucosal immunization methods utilizing the L3-Bac+ probiotic, which expresses antigenic determinants of pathogenic streptococci, were found to confer protection against bacterial infection in laboratory animals. Subsequently, recombinant technologies were refined, leading to the development of a universal method for incorporating a region of interest from the gene into the structure of the major pili protein gene of E. faecium L3. Using this technology, candidate vaccines against various infections, including Streptococcus pneumoniae, influenza A virus, and SARS-CoV-2 following the onset of the Covid-19 pandemic, have been obtained and tested. In this study, alongside the presentation of our own data, the challenges associated with utilizing recombinant probiotic bacteria as vectors for vaccine antigen delivery are discussed.
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抗细菌和病毒病原体的粘膜疫苗
人体粘膜在屏障功能和免疫稳态的发育、维持和调节中起着至关重要的作用,是整个免疫系统不可分割的组成部分。粘膜疫苗引起与粘膜相关的淋巴组织的免疫过程。黏膜免疫的一个关键目标是确定能够确保最佳疫苗效力的抗原递送载体。本文作者对肠球菌的益生菌特性进行了长时间的广泛研究。他们使用一种安全有益的益生菌菌株,粪肠球菌L3,作为疫苗抗原的传递载体。最初,编码来自B群链球菌(无乳链球菌)的致病性因子Bac的基因被成功整合到益生菌E. faecium L3的基因组中。使用表达致病性链球菌抗原决定因子的L3-Bac+益生菌的阴道内、口服和鼻内粘膜免疫方法被发现对实验动物的细菌感染具有保护作用。随后,重组技术得到了改进,从而开发了一种通用方法,将该基因的感兴趣区域整合到粪肠杆菌L3的主要毛蛋白基因的结构中。利用这项技术,已获得并测试了针对各种感染的候选疫苗,包括肺炎链球菌、甲型流感病毒和Covid-19大流行后的SARS-CoV-2。在本研究中,除了介绍我们自己的数据外,还讨论了利用重组益生菌作为疫苗抗原递送载体的挑战。
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来源期刊
Epidemiologiya i Vaktsinoprofilaktika
Epidemiologiya i Vaktsinoprofilaktika Medicine-Infectious Diseases
CiteScore
1.10
自引率
0.00%
发文量
58
审稿时长
8 weeks
期刊最新文献
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