基于反向疫苗学设计针对结核分枝杆菌PE_PGRS49和PE_PGRS56蛋白的多表位疫苗

Design of a Multi-Epitope Vaccine against Tuberculosis from PE_PGRS49 and PE_PGRS56 Proteins by Reverse Vaccinology.

作者信息

Ruaro-Moreno Maritriny, Monterrubio-López Gloria Paulina, Reyes-Gastellou Abraham, Castelán-Vega Juan Arturo, Jiménez-Alberto Alicia, Aparicio-Ozores Gerardo, Delgadillo-Gutiérrez Karen, González-Y-Merchand Jorge Alberto, Ribas-Aparicio Rosa María

机构信息

Departamento de Microbiología, Escuela Nacional de Ciencias Biológicas, Instituto Politécnico Nacional (IPN), Mexico City 11340, Mexico.

Posgrado en Biomedicina y Biotecnología Molecular, Escuela Nacional de Ciencias Biológicas, Instituto Politécnico Nacional (IPN), Mexico City 11340, Mexico.

出版信息

Microorganisms. 2023 Jun 24;11(7):1647. doi: 10.3390/microorganisms11071647.

DOI:10.3390/microorganisms11071647

PMID:37512820

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10385543/

Abstract

Tuberculosis is a disease caused by , representing the second leading cause of death by an infectious agent worldwide. The available vaccine against this disease has insufficient coverage and variable efficacy, accounting for a high number of cases worldwide. In fact, an estimated third of the world's population has a latent infection. Therefore, developing new vaccines is crucial to preventing it. In this study, the highly antigenic PE_PGRS49 and PE_PGRS56 proteins were analyzed. These proteins were used for predicting T- and B-cell epitopes and for human leukocyte antigen (HLA) protein binding efficiency. Epitopes GGAGGNGSLSS, FAGAGGQGGLGG, GIGGGTQSATGLG (PE_PGRS49), and GTGWNGGKGDTG (PE_PGRS56) were selected based on their best physicochemical, antigenic, non-allergenic, and non-toxic properties and coupled to HLA I and HLA II structures for in silico assays. A construct with an adjuvant (RS09) plus each epitope joined by GPGPG linkers was designed, and the stability of the HLA-coupled construct was further evaluated by molecular dynamics simulations. Although experimental and in vivo studies are still necessary to ensure its protective effect against the disease, this study shows that the vaccine construct is dynamically stable and potentially effective against tuberculosis.

摘要

结核病是一种由[病原体未明确写出]引起的疾病，是全球由传染性病原体导致的第二大死因。针对该疾病的现有疫苗覆盖率不足且效果不一，导致全球病例数众多。事实上，估计全球三分之一的人口有潜伏感染。因此，开发新疫苗对于预防该病至关重要。在本研究中，对高抗原性的PE_PGRS49和PE_PGRS56蛋白进行了分析。这些蛋白用于预测T细胞和B细胞表位以及人类白细胞抗原（HLA）蛋白结合效率。基于其最佳的物理化学、抗原性、非致敏性和无毒特性，选择了表位GGAGGNGSLSS、FAGAGGQGGLGG、GIGGGTQSATGLG（PE_PGRS49）和GTGWNGGKGDTG（PE_PGRS56），并将其与HLA I和HLA II结构偶联用于计算机模拟分析。设计了一种带有佐剂（RS09）加上由GPGPG接头连接的每个表位的构建体，并通过分子动力学模拟进一步评估了与HLA偶联的构建体的稳定性。尽管仍需要进行实验和体内研究以确保其对该疾病的保护作用，但本研究表明该疫苗构建体具有动态稳定性且可能对结核病有效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4c60/10385543/a41c52613908/microorganisms-11-01647-g001a.jpg

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基于反向疫苗学设计针对结核分枝杆菌PE_PGRS49和PE_PGRS56蛋白的多表位疫苗

Design of a Multi-Epitope Vaccine against Tuberculosis from PE_PGRS49 and PE_PGRS56 Proteins by Reverse Vaccinology.

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