Efficient production of a functional G protein-coupled receptor in E. coli for structural studies

IF 1.3 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Biomolecular NMR Pub Date : 2021-01-27 DOI:10.1007/s10858-020-00354-6

Layara Akemi Abiko, Marco Rogowski, Antoine Gautier, Gebhard Schertler, Stephan Grzesiek

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引用次数: 7

Abstract

G protein-coupled receptors (GPCRs) are transmembrane signal transducers which regulate many key physiological process. Since their discovery, their analysis has been limited by difficulties in obtaining sufficient amounts of the receptors in high-quality, functional form from heterologous expression hosts. Albeit highly attractive because of its simplicity and the ease of isotope labeling for NMR studies, heterologous expression of functional GPCRs in E. coli has proven particularly challenging due to the absence of the more evolved protein expression and folding machinery of higher eukaryotic hosts. Here we first give an overview on the previous strategies for GPCR E. coli expression and then describe the development of an optimized robust protocol for the E. coli expression and purification of two mutants of the turkey β₁-adrenergic receptor (β₁AR) uniformly or selectively labeled in ¹⁵N or ²H,¹⁵N. These mutants had been previously optimized for thermal stability using insect cell expression and used successfully in crystallographic and NMR studies. The same sequences were then used for E. coli expression. Optimization of E. coli expression was achieved by a quantitative analysis of losses of receptor material at each step of the solubilization and purification procedure. Final yields are 0.2–0.3?mg receptor per liter culture. Whereas both expressed mutants are well folded and competent for orthosteric ligand binding, the less stable YY-β₁AR mutant also comprises the two native tyrosines Y^5.58 and Y^7.53, which enable G protein binding. High-quality ¹H-¹⁵N TROSY spectra were obtained for E. coli-expressed YY-β₁AR in three different functional states (antagonist, agonist, and agonist?+?G protein-mimicking nanobody-bound), which are identical to spectra obtained of the same forms of the receptor expressed in insect cells. NdeI and AgeI restriction sites introduced into the expression plasmid allow for the easy replacement of the receptor gene by other GPCR genes of interest, and the provided quantitative workflow analysis may guide the respective adaptation of the purification protocol.

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用于结构研究的功能性G蛋白偶联受体在大肠杆菌中的高效生产

G蛋白偶联受体(gpcr)是一种跨膜信号转导器，它调节着许多重要的生理过程。自发现以来，由于难以从异源表达宿主中获得足够数量的高质量、功能形式的受体，他们的分析受到限制。尽管由于其简单性和易于进行核磁共振研究的同位素标记而具有很高的吸引力，但由于缺乏更进化的蛋白质表达和高级真核宿主的折叠机制，在大肠杆菌中表达功能性gpcr已被证明特别具有挑战性。在这里，我们首先概述了以前的GPCR大肠杆菌表达策略，然后描述了一种优化的稳健方案，用于在15N或2H,15N下均匀或选择性标记火鸡β1-肾上腺素能受体(β1AR)的两个突变体的大肠杆菌表达和纯化。这些突变体以前已经通过昆虫细胞表达优化了热稳定性，并成功地用于晶体学和核磁共振研究。同样的序列随后被用于大肠杆菌的表达。通过定量分析溶解和纯化过程中每一步受体材料的损失，实现了大肠杆菌表达的优化。最终收益率为0.2-0.3 ?每升培养Mg受体。虽然这两种表达的突变体都折叠良好，能够与正位配体结合，但稳定性较差的YY-β1AR突变体也含有两种天然酪氨酸Y5.58和Y7.53，这两种酪氨酸能够与G蛋白结合。大肠杆菌表达的YY-β1AR在三种不同的功能状态(拮抗剂、激动剂和激动剂?+?)下获得了高质量的1H-15N TROSY光谱。G蛋白模拟纳米体结合)，这与在昆虫细胞中表达的相同形式的受体获得的光谱相同。在表达质粒中引入NdeI和AgeI酶切位点，使得受体基因很容易被其他感兴趣的GPCR基因取代，并且提供的定量工作流程分析可以指导各自的纯化方案的适应。

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

Journal of Biomolecular NMR 生物-光谱学

CiteScore

6.00

自引率

3.70%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Biomolecular NMR provides a forum for publishing research on technical developments and innovative applications of nuclear magnetic resonance spectroscopy for the study of structure and dynamic properties of biopolymers in solution, liquid crystals, solids and mixed environments, e.g., attached to membranes. This may include: Three-dimensional structure determination of biological macromolecules (polypeptides/proteins, DNA, RNA, oligosaccharides) by NMR. New NMR techniques for studies of biological macromolecules. Novel approaches to computer-aided automated analysis of multidimensional NMR spectra. Computational methods for the structural interpretation of NMR data, including structure refinement. Comparisons of structures determined by NMR with those obtained by other methods, e.g. by diffraction techniques with protein single crystals. New techniques of sample preparation for NMR experiments (biosynthetic and chemical methods for isotope labeling, preparation of nutrients for biosynthetic isotope labeling, etc.). An NMR characterization of the products must be included.