Temperature-Driven Stopped-Flow Experiments for Investigating the Initial Aggregation of the α-Synuclein Amyloid Protein, Focusing on Active and Inactive Phases.

IF 2.6 4区 化学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of Fluorescence Pub Date : 2024-10-02 DOI:10.1007/s10895-024-03971-8
Marco A Saraiva
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Abstract

The primary objective of this research is to further examine the events occurring during the active or burst phase by focusing on the aggregation of the Syn amyloid protein. Regarding this aspect, it was initially conducted rapid temperature variations using stopped-flow spectrometry and tyrosyl group fluorescence emission detection, within the initial 500 milliseconds in buffered Syn solutions at pH 7, exploring various temperature ranges to investigate protein aggregation. The results obtained were contrasted with results obtained for the Nα-acetyl-L-tyrosinamide (NAYA) parent compound in the same conditions. The utilization of the NAYA compound is suitable as it mimics the peptide bonds in proteins and contains a tyrosyl group resembling the four tyrosyl groups found in the Syn protein structure (the protein has no tryptophan residues). Furthermore, the NAYA compound adopts an intramolecularly hydrogen-bonded structure even in an aqueous solution, similar to the interactions seen in the hydrophilic face of β-sheets. Additionally, the Syn protein system can exhibit the presence of β-sheets as a result of the existence of very low abundant Syn amyloid precursor forms or nuclei during the initial stages of the protein aggregation. Thus, a relationship is present between the molecular processes in the NAYA and Syn protein systems, making the NAYA's application crucial in this research. Moreover, to aid in understanding the results, it was also compared the events during the quiescent or inactive phase (30-500 milliseconds) with those in the burst phase (up to 10 milliseconds) using stopped-flow spectrometry conditions. Steady-state measurements were beneficial in comprehending the occurrences in both the quiescent and burst phases examined. Although protein aggregation and disaggregation were observed during the quiescent phase, determining these processes in the burst phase was more challenging. In the latter case, the aggregation of the Syn protein is actually initiated by the interaction of the intrinsically disordered Syn monomers. In the quiescent phase, first-order rate constants were measured and analysis showed that Syn protein aggregation and disaggregation occur simultaneously. At lower temperatures, early protein disaggregation outweighs protein aggregation whereas at higher temperatures protein disaggregation and aggregation are rather similar. It is also need to highlight that the burst phase, while distinct from the quiescent phase, can be considered as a possible structural phase for obtaining details about the aggregation of this specific disordered protein in solution on a very short timescale.

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用于研究α-突触核蛋白淀粉样蛋白初始聚合的温度驱动停流实验,重点关注活性和非活性相。
这项研究的主要目的是通过关注 Syn 淀粉样蛋白的聚集,进一步研究在活性或爆发阶段发生的事件。在这方面,研究人员首先使用停流光谱仪和酪氨酰基荧光发射检测技术,在 pH 值为 7 的缓冲 Syn 溶液中的最初 500 毫秒内进行快速温度变化,探索各种温度范围以研究蛋白质的聚集情况。获得的结果与 Nα- 乙酰基-L-酪氨酰胺(NAYA)母体化合物在相同条件下获得的结果进行了对比。使用 NAYA 化合物是合适的,因为它模仿了蛋白质中的肽键,并含有一个与 Syn 蛋白结构中的四个酪氨酰基相似的酪氨酰基(蛋白质中没有色氨酸残基)。此外,即使在水溶液中,NAYA 化合物也能形成分子内氢键结构,类似于 β 片层亲水面的相互作用。此外,在蛋白质聚集的初始阶段,由于存在含量极低的 Syn 淀粉样蛋白前体或核,Syn 蛋白系统也会显示出 β 片层的存在。因此,NAYA 和 Syn 蛋白系统中的分子过程之间存在着某种关系,这使得 NAYA 在本研究中的应用变得至关重要。此外,为了帮助理解研究结果,研究人员还利用停流光谱条件比较了静态或非活动期(30-500 毫秒)与爆发期(最多 10 毫秒)的事件。稳态测量有利于理解静态和爆发阶段的事件。虽然在静止期观察到了蛋白质聚集和分解,但在爆发期确定这些过程更具挑战性。在后一种情况下,Syn 蛋白的聚集实际上是由本质上无序的 Syn 单体相互作用引发的。在静止阶段,测量了一阶速率常数,分析表明 Syn 蛋白的聚集和分解是同时发生的。在较低温度下,早期蛋白质的解聚大于蛋白质的聚集,而在较高温度下,蛋白质的解聚和聚集相当接近。还需要强调的是,尽管猝灭阶段有别于静止阶段,但可以将其视为一种可能的结构阶段,以便在极短的时间尺度内获得这种特定无序蛋白质在溶液中聚集的细节。
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来源期刊
Journal of Fluorescence
Journal of Fluorescence 化学-分析化学
CiteScore
4.60
自引率
7.40%
发文量
203
审稿时长
5.4 months
期刊介绍: Journal of Fluorescence is an international forum for the publication of peer-reviewed original articles that advance the practice of this established spectroscopic technique. Topics covered include advances in theory/and or data analysis, studies of the photophysics of aromatic molecules, solvent, and environmental effects, development of stationary or time-resolved measurements, advances in fluorescence microscopy, imaging, photobleaching/recovery measurements, and/or phosphorescence for studies of cell biology, chemical biology and the advanced uses of fluorescence in flow cytometry/analysis, immunology, high throughput screening/drug discovery, DNA sequencing/arrays, genomics and proteomics. Typical applications might include studies of macromolecular dynamics and conformation, intracellular chemistry, and gene expression. The journal also publishes papers that describe the synthesis and characterization of new fluorophores, particularly those displaying unique sensitivities and/or optical properties. In addition to original articles, the Journal also publishes reviews, rapid communications, short communications, letters to the editor, topical news articles, and technical and design notes.
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