Structure–Function Relationship and Stability of Latroeggtoxin‐VI: A Proteinaceous Toxin From the Eggs of Latrodectus tredecimguttatus

IF 1.5 4区 生物学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Peptide Science Pub Date : 2024-06-25 DOI:10.1002/pep2.24367
Si Chen, Minglu Sun, Panfeng Yin, Xianchun Wang
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引用次数: 0

Abstract

Latroeggtoxin‐VI (LETX‐VI), a peptide toxin discovered from the eggs of spider Latrodectus tredecimguttatus, was previously shown to promote the synthesis and release of dopamine in rat pheochromocytoma (PC12) cells, showing potential applications in the neurobiology and medicine. To further understand the structure and properties of LETX‐VI, the key residues were identified and their roles in the structure, function, and stability of LETX‐VI were analyzed in the present work. Based on the protein molecular docking, our previous work, and the relevant literature, the potential key residues of LETX‐VI were selected and identified by alanine‐scanning mutagenesis. The wild‐type LETX‐VI and its 13 mutants, including a double mutant, were prepared by gene cloning and heterologous expression in Escherichia coli, followed by activity, structure, and stability determination. The results demonstrated that the activity of the mutants K25A, R35A, K40A/R41A, and L45A, particularly R35A, to promote dopamine release from PC12 cells was significantly decreased compared with that of the wild‐type LETX‐VI, indicating that these mutated residues are the key residues. Circular dichroism (CD) analysis showed that the secondary structure of these mutants was not obviously different from that of wild‐type LETX‐VI, suggesting that mutation‐caused decrease in the activity of LETX‐VI is due to the changes in the binding site on the molecule surface, rather than the abnormal alternation of the molecular conformation of LETX‐VI. Acetonitrile (ACN) did not obviously influence the activity of LETX‐VI; however, 0.1% trifluoroacetic acid (TFA) treatment for 2 h significantly reduced its activity. Treatment with weakly acidic and basic buffers (pH ≥ 6.6) for 12 h was favorable for LETX‐VI and R35A to exert their activity. Higher temperatures (>37°C) decreased the activity of both wild‐type LETX‐VI and R35A. In conclusion, K25, R35, K40, R41, and L45 particularly R35 are the important functional site residues; during experiments, care should be taken to avoid the adverse influence of strong acid and high temperature on LETX‐VI. These observations have enhanced our understanding of the structure and properties of LETX‐VI and provided references for the subsequent modification of structure and function of LETX‐VI.
Latroeggtoxin-VI.的结构功能关系和稳定性:一种来自蝙蝠卵的蛋白质毒素
Latroeggtoxin-VI(LETX-VI)是一种从蜘蛛Latrodectus tredecimguttatus的卵中发现的多肽毒素,以前曾被证明能促进大鼠嗜铬细胞瘤(PC12)细胞中多巴胺的合成和释放,在神经生物学和医学方面具有潜在的应用价值。为了进一步了解 LETX-VI 的结构和性质,本研究确定了 LETX-VI 的关键残基,并分析了它们在 LETX-VI 结构、功能和稳定性中的作用。根据蛋白质分子对接、我们之前的工作以及相关文献,我们通过丙氨酸扫描突变筛选并确定了 LETX-VI 潜在的关键残基。通过基因克隆和大肠杆菌异源表达,制备了野生型 LETX-VI 及其 13 个突变体,包括一个双突变体,并进行了活性、结构和稳定性测定。结果表明,与野生型 LETX-VI 相比,突变体 K25A、R35A、K40A/R41A 和 L45A(尤其是 R35A)促进 PC12 细胞释放多巴胺的活性明显降低,表明这些突变残基是关键残基。圆二色性(CD)分析表明,这些突变体的二级结构与野生型 LETX-VI 并无明显差异,表明突变导致的 LETX-VI 活性降低是由于分子表面结合位点的变化,而不是 LETX-VI 分子构象的异常变化。乙腈(ACN)对 LETX-VI 的活性没有明显影响,但 0.1% 的三氟乙酸(TFA)处理 2 小时会显著降低其活性。用弱酸性和碱性缓冲液(pH ≥ 6.6)处理 12 小时有利于 LETX-VI 和 R35A 发挥其活性。温度升高(37°C)会降低野生型 LETX-VI 和 R35A 的活性。总之,K25、R35、K40、R41 和 L45 特别是 R35 是重要的功能位点残基;在实验过程中应注意避免强酸和高温对 LETX-VI 的不利影响。这些观察结果加深了我们对 LETX-VI 结构和性质的理解,为后续修改 LETX-VI 的结构和功能提供了参考。
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
Peptide Science
Peptide Science Biochemistry, Genetics and Molecular Biology-Biophysics
CiteScore
5.20
自引率
4.20%
发文量
36
期刊介绍: The aim of Peptide Science is to publish significant original research papers and up-to-date reviews covering the entire field of peptide research. Peptide Science provides a forum for papers exploring all aspects of peptide synthesis, materials, structure and bioactivity, including the use of peptides in exploring protein functions and protein-protein interactions. By incorporating both experimental and theoretical studies across the whole spectrum of peptide science, the journal serves the interdisciplinary biochemical, biomaterials, biophysical and biomedical research communities. Peptide Science is the official journal of the American Peptide Society.
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