Extending Linker Sequences between Antigen-Recognition Modules Provides More Effective Production of Bispecific Nanoantibodies in the Periplasma of E. coli

IF 2.3 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
Sergei V. Tillib, Oksana S. Goryainova
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引用次数: 0

Abstract

Technology of production of single-domain antibodies (NANOBODY® molecules, also referred to as nanoantibodies, nAb, or molecules based on other stable protein structures) and their derivatives to solve current problems in biomedicine is becoming increasingly popular. Indeed, the format of one small, highly soluble protein with a stable structure, fully functional in terms of specific recognition, is very convenient as a module for creating multivalent, bi-/oligo-specific genetically engineered targeting molecules and structures. Production of nAb in periplasm of E. coli bacterium is a very convenient and fairly universal way to obtain analytical quantities of nAb for the initial study of the properties of these molecules and selection of the most promising nAb variants. The situation is more complicated with production of bi- and multivalent derivatives of the initially selected nAbs under the same conditions. In this work, extended linker sequences (52 and 86 aa) between the antigen-recognition modules in the cloned expression constructs were developed and applied in order to increase efficiency of production of bispecific nanoantibodies (bsNB) in the periplasm of E. coli bacteria. Three variants of model bsNBs described in this study were produced in the periplasm of bacteria and isolated in soluble form with preservation of functionality of all the protein domains. If earlier our attempts to produce bsNB in the periplasm with traditional linkers no longer than 30 aa were unsuccessful, the extended linkers used here provided a significantly more efficient production of bsNB, comparable in efficiency to the traditional production of original monomeric nAbs. The use of sufficiently long linkers could presumably be useful for increasing efficiency of production of other bsNBs and similar molecules in the periplasm of E. coli bacteria.

Abstract Image

扩展抗原识别模块之间的连接序列可更有效地在大肠杆菌血浆周围产生双特异性纳米抗体
摘要生产单域抗体(NANOBODY® 分子,也称为纳米抗体、nAb 或基于其他稳定蛋白质结构的分子)及其衍生物以解决当前生物医学问题的技术正变得越来越流行。事实上,一种结构稳定、功能齐全的小型高溶解性蛋白质在特异性识别方面非常方便,可作为创建多价、双/寡特异性基因工程靶向分子和结构的模块。在大肠杆菌的外质中生产 nAb 是一种非常方便且相当普遍的方法,可以获得分析量的 nAb,用于初步研究这些分子的特性和选择最有前途的 nAb 变体。在相同条件下生产最初选定的 nAb 的双价和多价衍生物时,情况会变得更加复杂。在这项工作中,开发并应用了克隆表达构建体中抗原识别模块之间的扩展连接序列(52 和 86 aa),以提高在大肠杆菌外质中生产双特异性纳米抗体(bsNB)的效率。本研究中描述的三种模型 bsNB 变体在细菌外质中产生,并以可溶形式分离出来,同时保留了所有蛋白结构域的功能。如果说早先我们用长度不超过 30 aa 的传统连接体在外周质中生产 bsNB 的尝试并不成功,那么本研究中使用的加长连接体则大大提高了生产 bsNB 的效率,其效率可与传统生产原始单体 nAbs 的效率相媲美。使用足够长的连接体可能有助于提高大肠杆菌外质中其他bsNB和类似分子的生产效率。
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来源期刊
Biochemistry (Moscow)
Biochemistry (Moscow) 生物-生化与分子生物学
CiteScore
4.70
自引率
3.60%
发文量
139
审稿时长
2 months
期刊介绍: Biochemistry (Moscow) is the journal that includes research papers in all fields of biochemistry as well as biochemical aspects of molecular biology, bioorganic chemistry, microbiology, immunology, physiology, and biomedical sciences. Coverage also extends to new experimental methods in biochemistry, theoretical contributions of biochemical importance, reviews of contemporary biochemical topics, and mini-reviews (News in Biochemistry).
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