A guide to studying protein aggregation

Joëlle A. J. Housmans, Guiqin Wu, Joost Schymkowitz, Frederic Rousseau
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引用次数: 38

Abstract

Disrupted protein folding or decreased protein stability can lead to the accumulation of (partially) un- or misfolded proteins, which ultimately cause the formation of protein aggregates. Much of the interest in protein aggregation is associated with its involvement in a wide range of human diseases and the challenges it poses for large-scale biopharmaceutical manufacturing and formulation of therapeutic proteins and peptides. On the other hand, protein aggregates can also be functional, as observed in nature, which triggered its use in the development of biomaterials or therapeutics as well as for the improvement of food characteristics. Thus, unmasking the various steps involved in protein aggregation is critical to obtain a better understanding of the underlying mechanism of amyloid formation. This knowledge will allow a more tailored development of diagnostic methods and treatments for amyloid-associated diseases, as well as applications in the fields of new (bio)materials, food technology and therapeutics. However, the complex and dynamic nature of the aggregation process makes the study of protein aggregation challenging. To provide guidance on how to analyse protein aggregation, in this review we summarize the most commonly investigated aspects of protein aggregation with some popular corresponding methods.

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研究蛋白质聚集的指南
蛋白质折叠中断或蛋白质稳定性降低可导致(部分)未折叠或错误折叠蛋白质的积累,最终导致蛋白质聚集体的形成。对蛋白质聚集的兴趣很大程度上与它与广泛的人类疾病的关系以及它对大规模生物制药制造和治疗性蛋白质和多肽配方提出的挑战有关。另一方面,蛋白质聚集体也可以是功能性的,正如在自然界中观察到的那样,这引发了它在生物材料或治疗药物的开发以及食品特性改善方面的应用。因此,揭示蛋白质聚集的各种步骤对于更好地理解淀粉样蛋白形成的潜在机制至关重要。这些知识将允许更有针对性地开发淀粉样蛋白相关疾病的诊断方法和治疗方法,以及在新(生物)材料、食品技术和治疗领域的应用。然而,聚集过程的复杂性和动态性使得蛋白质聚集的研究具有挑战性。为了指导如何分析蛋白质聚集,本文综述了蛋白质聚集最常见的研究方面和一些流行的相应方法。
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