New Generation Peptide-Based Vaccine Prototype

Current and Future Aspects of Nanomedicine Pub Date : 2019-10-07 DOI:10.5772/intechopen.89115

Ö. Özcan, M. Karahan, Vijayaraj Kumar Palanirajan, Shen Leng Tan, Y. N. Tee

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引用次数: 3

Abstract

Synthetic peptide-based vaccine prototypes are the future potential vaccination. Antigens, which belong to minimal microbial component and produce antibodies such as peptides and polysaccharides, can promote long-term protection against pathogens that can cause infectious diseases. Production of peptides becomes simple with solid phase peptide synthesis and microwave-assisted solid phase peptide synthesis using automatic synthesizers. The use of synthetic peptides was approved by the health authorities for vaccine design. Peptides are themselves very weak immunogens and need adjuvants to provide an effective autoimmune response. For this reason, peptide antigens are conjugated with biopolymers and loaded with nanoparticles. The toxicity of vaccine prototypes is evaluated in cell culture, and non-toxic prototypes are selected for vaccinating experimental animals. The most effective peptide-based vaccine prototype is determined as the one with the highest antibody level. The goal of this book chapter is to illustrate the use of peptides vaccine systems and present their opportunities with their future development.

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新一代肽类疫苗原型

基于合成肽的疫苗原型是未来潜在的疫苗接种方法。抗原属于最小的微生物成分，可产生多肽和多糖等抗体，可促进对可引起传染病的病原体的长期保护。采用固相多肽合成和微波辅助固相多肽合成自动合成器使多肽的生产变得简单。在疫苗设计中使用合成多肽已得到卫生当局的批准。多肽本身是非常弱的免疫原，需要佐剂来提供有效的自身免疫反应。由于这个原因，肽抗原与生物聚合物结合并装载纳米颗粒。在细胞培养中评估疫苗原型的毒性，并选择无毒原型用于接种实验动物。最有效的肽基疫苗原型被确定为抗体水平最高的原型。本章的目标是说明多肽疫苗系统的使用，并提出他们的机会与他们的未来发展。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current and Future Aspects of Nanomedicine

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