Nanobody as a new generation of functional proteins

Q4 Pharmacology, Toxicology and Pharmaceutics

Iranian Journal of Pharmaceutical Sciences Pub Date : 2018-07-01 DOI:10.22034/IJPS.2018.35933

Zahra Ebrahimi, R. Arezumand, A. Ramazani

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引用次数: 2

Abstract

Nanobody (Nb) or VHH is the smallest binding domain of camelid heavy chain antibody (HcAb). Light chains of HcAb naturally removed and because of some evolutionary changes, Nbs have unique properties rather than conventional antibodies. The size of Nb is about one-tenth (0.1) of whole antibodies and this size improved some problems of four chains antibodies such as high yield of expression in prokaryotic systems and penetration to tissues. Some other characterizes of Nb like close homology to human VH, high stability in the extended range of pH and temperature, the capability to the identification of unusual epitope is very attractive for research and development of new Nb candidates for diagnosis, research, and therapeutic applications. Discovery of Nb almost coincided with advancement in phage display technology that was used along with Hybridoma technology in monoclonal antibody development. Currently, many of research groups focused on high-quality Nbs development against different targets especially in cancers and fortunately there are many of Nbs in clinical trial stages for use in extended ranges of diseases such as cancers, autoimmune and inflammatory diseases and infectious diseases. Recently two of them were approved for clinical use. Big companies like Ablynx and Merck have been invested in this field and in future, further drugs base Nbs were approved in different areas of health science. In this review, we focused on production, features, and clinical application of Nbs and will be noted to Nbs in clinical trials.

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纳米体作为新一代功能蛋白

纳米体(Nanobody, Nb)是骆驼重链抗体(camelid heavy chain antibody, HcAb)最小的结合域。HcAb的轻链自然去除，并且由于一些进化变化，Nbs具有比传统抗体更独特的性质。Nb的大小约为整个抗体的十分之一(0.1)，这种大小改善了四链抗体在原核系统中的高产率和对组织的穿透性等问题。Nb与人类VH具有密切的同源性，在较宽的pH和温度范围内具有很高的稳定性，以及对异常表位的识别能力，这些特性对研究和开发新的Nb候选物具有很大的吸引力，可用于诊断、研究和治疗应用。Nb的发现几乎与噬菌体展示技术的进步相一致，该技术与杂交瘤技术一起用于单克隆抗体的开发。目前，许多研究小组专注于针对不同靶点的高质量Nbs开发，特别是在癌症方面，幸运的是，有许多Nbs处于临床试验阶段，可用于癌症、自身免疫性疾病和炎症性疾病以及传染病等广泛疾病。最近，其中两种药物被批准用于临床。像Ablynx和默克这样的大公司已经在这一领域进行了投资，未来，更多的药物基础Nbs将在健康科学的不同领域获得批准。本文就Nbs的生产、特点、临床应用进行综述，并对Nbs在临床试验中的应用进行综述。

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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来源期刊

Iranian Journal of Pharmaceutical Sciences Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： Iranian Journal of Pharmaceutical Sciences (IJPS) is an open access, internationally peer-reviewed journal that seeks to publish research articles in different pharmaceutical sciences subdivisions: pharmacology and toxicology, nanotechnology, pharmaceutics, natural products, biotechnology, pharmaceutical chemistry, clinical pharmacy and other pharmacy related topics. Each issue of the journal contents 16 outstanding research articles in area of pharmaceutical sciences plus an editorial written by the IJPS editors on one of the most up to date advances topics in pharmacy. All articles published by IJPS would be permanently accessible online freely without any subscription charges. Authors of the published articles have granted the right to use and disseminate their article to third parties.