Bacteriophage-based Vaccine: A New Dawn for Vaccine Design and Development

Q4 Agricultural and Biological Sciences
F. Khan
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引用次数: 0

Abstract

The COVID-19 epidemic has strained healthcare systems, causing stress among personnel and facing significant economic and social issues. COVID-19 patients have significant symptoms, necessitating prompt treatment. It is a global urgency to develop effective vaccinations against COVID-19. Quick immunization of the whole world population against an ever-changing, extremely deadly virus is alarming, and various vaccine techniques are being researched. Bacteriophages are helpful in the treatment of multidrug-resistant bacterial infections. But, their clinical efficacy may go far beyond. One of the most significant bioproducts in medicine is thought to be vaccines. Vaccines for a variety of diseases have been made. However, certain vaccinations have disadvantages, such as high prices and immunological responses. In this regard, the use of bacteriophages has been suggested as an exciting alternative for making more inexpensive vaccines. Bacteriophage-displayed vaccines are based on the antigens being expressed on the phage surface. This tactic uses the inherent advantages of these particles, including their high stability, inexpensive production, and adjuvant capacity. Phage-displayed, phages DNA and hybrid phage-DNA vaccines are the three phage-based vaccines that are currently offered. The traditional method for finding novel barrier protection epitopes, antigens, and mimotopes is phage display. In this frame of reference, phage particles serve as a versatile, effective, and promising strategy for making vaccine delivery systems that are more effective and should be widely applied in the future. The phage-vaccine technique can potentially address the growing demand for innovative vaccinations against emerging diseases. This short communication addresses bacteriophage uses in vaccine development and discusses recent developments in bacteriophage-based vaccinations. It also focuses on and describes bacteriophages as a novel vaccine candidate for COVID-19.
基于噬菌体的疫苗:疫苗设计和开发的新曙光
新冠肺炎疫情使医疗系统紧张,造成人员压力,并面临重大经济和社会问题。新冠肺炎患者出现明显症状,需要及时治疗。开发有效的新冠肺炎疫苗是全球的当务之急。全世界人口对一种不断变化、极其致命的病毒的快速免疫接种令人担忧,各种疫苗技术正在研究中。噬菌体有助于治疗耐多药细菌感染。但是,它们的临床疗效可能远远不止于此。疫苗被认为是医学上最重要的生物产品之一。已经研制出了多种疾病的疫苗。然而,某些疫苗有缺点,例如价格高和免疫反应。在这方面,噬菌体的使用被认为是制造更便宜疫苗的一种令人兴奋的替代方案。噬菌体展示疫苗是基于在噬菌体表面表达的抗原。这种策略利用了这些颗粒的固有优势,包括它们的高稳定性、廉价的生产和佐剂能力。噬菌体展示、噬菌体DNA和杂交噬菌体DNA疫苗是目前提供的三种基于噬菌体的疫苗。寻找新的屏障保护表位、抗原和模拟表位的传统方法是噬菌体展示。在这个参考框架中,噬菌体颗粒是一种多功能、有效且有前景的策略,用于制造更有效的疫苗递送系统,并应在未来广泛应用。噬菌体疫苗技术有可能解决对新型疾病创新疫苗日益增长的需求。这篇简短的通讯介绍了噬菌体在疫苗开发中的应用,并讨论了基于噬菌体的疫苗接种的最新进展。它还关注并描述了噬菌体作为新冠肺炎的新型候选疫苗。
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来源期刊
Proceedings of the Pakistan Academy of Sciences: Part B
Proceedings of the Pakistan Academy of Sciences: Part B Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
0.60
自引率
0.00%
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0
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