Bivalent affinity binding-inspired PPARγ immobilization with selective conformation and improved ligand-binding activity

IF 3.8 2区化学 Q1 BIOCHEMICAL RESEARCH METHODS

Journal of Chromatography A Pub Date : 2024-07-05 DOI:10.1016/j.chroma.2024.465141

Zilong Zhang, Jiahuan Chen, Lixiang Chen, Kaihua Long, Lejing Qu, Silin Huang, Xinyi Yuan, Xu Ji, Qian Li, Xinfeng Zhao

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引用次数: 0

Abstract

Functional protein immobilization forms the basis for bio-detections. A series of one-point, site-specific immobilization methods have been developed, however, it still remains as a challenge how to avoid the proteins to move in all directions as well as conveniently regenerate the bio-devices. Herein, we have developed a bivalent affinity binding-inspired method for PPARγ immobilization using DNA aptamer and nickel-nitrilotriacetic acid (Ni²⁺-NTA) chelation. The specific DNA aptamer (Apt 2) was selected by an on-column systematic evolution of ligands by exponential enrichment (SELEX) method with affinity of (1.57 ± 0.15) × 10⁵ M⁻¹, determined by isothermal titration calorimetry (ITC). Apt 2 and nickel-nitrilotriacetic acid (Ni²⁺-NTA) were modified on macroporous silica gels via L-α-allylglycine as a linker. They respectively interacted with PPARγ and 6×His tag via bivalent affinity binding for the receptor immobilization. After comprehensive surface characterization, PPARγ was proved to be successful immobilized. Chromatographic studies revealed that the immobilized PPARγ has conformation selectivity, which discriminated agonist and antagonist of the receptor. Ligand-binding parameters (affinity and rate constant) of four agonists (rosiglitazone, pioglitazone, troglitazone, and magnolol) with PPARγ were determined. Troglitazone showed the lowest dissociation rate constant. The binding affinities (3.28 × 10⁷, 1.91 × 10⁶, 2.25 × 10⁷, and 2.43 × 10⁷ M⁻¹) were highly consistent with the data obtained using purified receptor in solution (2.16 × 10⁷, 4.52 × 10⁶, 1.20 × 10⁷, and 1.56 × 10⁷ M⁻¹), offering reliable bio-detection method for PPARγ and its ligands. Due to the biocompatibility of nuclear receptor with DNA, it is conceivable that the bivalent affinity-based method will be a general method for the immobilization of other nuclear receptors, which may provide selective conformation and improved ligand-binding activity for the receptors.

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受二价亲和力结合启发的 PPARγ 固定化具有选择性构象和更好的配体结合活性。

功能性蛋白质固定化是生物检测的基础。目前已开发出一系列单点、位点特异性固定方法，但如何避免蛋白质向各个方向移动并方便地再生生物装置仍是一个挑战。在此，我们开发了一种受二价亲和结合启发的 PPARγ 固定化方法，该方法使用 DNA aptamer 和镍-次氮基三乙酸（Ni2+-NTA）螯合。通过等温滴定量热法（ITC）测定，柱上配体指数富集系统进化法（SELEX）筛选出的特异性DNA适配体（Apt 2）的亲和力为（1.57 ± 0.15）×105 M-1。以 L-α-烯丙基甘氨酸为连接剂，在大孔硅胶凝胶上修饰了 Apt 2 和镍-次氮基三乙酸（Ni2+-NTA）。它们分别与 PPARγ 和 6×His 标签通过二价亲和结合进行受体固定。经过全面的表面表征，PPARγ 被成功固定。色谱研究表明，固定化的 PPARγ 具有构象选择性，可区分受体的激动剂和拮抗剂。研究测定了四种激动剂（罗格列酮、吡格列酮、曲格列酮和木格列醇）与 PPARγ 的配体结合参数（亲和力和速率常数）。曲格列酮的解离率常数最低。其结合亲和力（3.28 × 107、1.91 × 106、2.25 × 107 和 2.43 × 107 M-1）与在溶液中使用纯化受体获得的数据（2.16 × 107、4.52 × 106、1.20 × 107 和 1.56 × 107 M-1）高度一致，为 PPARγ 及其配体提供了可靠的生物检测方法。由于核受体与 DNA 的生物相容性，可以想象这种基于二价亲和力的方法将成为固定其他核受体的通用方法，从而为受体提供选择性构象并提高配体结合活性。

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 Chromatography A 化学-分析化学

CiteScore

7.90

自引率

14.60%

发文量

742

审稿时长

45 days

期刊介绍： The Journal of Chromatography A provides a forum for the publication of original research and critical reviews on all aspects of fundamental and applied separation science. The scope of the journal includes chromatography and related techniques, electromigration techniques (e.g. electrophoresis, electrochromatography), hyphenated and other multi-dimensional techniques, sample preparation, and detection methods such as mass spectrometry. Contributions consist mainly of research papers dealing with the theory of separation methods, instrumental developments and analytical and preparative applications of general interest.

文献相关原料

公司名称	产品信息	采购帮参考价格
上海源叶	GW9662	￥37.00~￥12278.00
上海源叶	Rosiglitazone	￥45.00~￥11804.00
上海源叶	Pioglitazone
麦克林	All the other analytically pure chemical reagents for the modification of silica gels (unless specially stated)
阿拉丁	All the other analytically pure chemical reagents for the modification of silica gels (unless specially stated)