Calorimetry and FTIR reveal the ability of URG7 protein to modify the aggregation state of both cell lysate and amylogenic α-synuclein

IF 1.1 Q4 BIOPHYSICS
J. Dandurand, A. Ostuni, M. Armentano, M. Crudele, V. Dolce, Federica Marra, V. Samouillan, F. Bisaccia
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引用次数: 3

Abstract

Differential scanning calorimetry and FITR analyses allowed to investigate the role of URG7 (up-regulated gene clone 7) protein involved in the development of hepatocellular carcinoma induced by hepatitis B virus infection, on the physical structure both of lysates of human hepatoblastoma cells (HepG2) stressed with tunicamycin and α-synuclein, one of the proteins associated with neurogenerative diseases. The protein-water interfacial region was identified and correlated with protein structure. DSC results confirm through the interfacial water behavior that URG7 is able to act in two ways: it maintains the interfacial water stability and controls the mobile fraction level, thereby the flexibility and the protein folding. The mobile water phase increases strongly for cells exposed to α-synuclein, demonstrating an important influence on water hydration. FTIR results evidenced an increase of about 30% of cross β structures in cells exposed to α-synuclein, associated with aggregated proteins. In stress conditions, URG7 was able to maintain the same fraction of mobile water as untreated cells. URG7 was able to restore the water reorientation ability around the complex lysate system and reduced abnormal protein folding.
量热法和FTIR揭示了URG7蛋白改变细胞裂解物和淀粉样α-突触核蛋白聚集状态的能力
差示扫描量热法和FITR分析可以研究URG7(上调基因克隆7)蛋白在乙型肝炎病毒感染诱导的肝细胞癌发生中的作用、对膜霉素和α-突触核蛋白应激的人肝母细胞瘤细胞(HepG2)裂解物的物理结构的影响,与神经源性疾病相关的蛋白质之一。确定了蛋白质-水界面区,并将其与蛋白质结构联系起来。DSC结果通过界面水行为证实,URG7能够通过两种方式发挥作用:它保持界面水的稳定性并控制流动部分的水平,从而提高灵活性和蛋白质折叠。暴露于α-突触核蛋白的细胞的流动水相强烈增加,表明对水的水合作用有重要影响。FTIR结果证明,在暴露于α-突触核蛋白的细胞中,与聚集蛋白相关的交叉β结构增加了约30%。在应激条件下,URG7能够保持与未处理细胞相同的流动水份额。URG7能够恢复复杂裂解物系统周围的水重新定向能力,并减少异常蛋白质折叠。
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
AIMS Biophysics
AIMS Biophysics BIOPHYSICS-
CiteScore
2.40
自引率
20.00%
发文量
16
审稿时长
8 weeks
期刊介绍: AIMS Biophysics is an international Open Access journal devoted to publishing peer-reviewed, high quality, original papers in the field of biophysics. We publish the following article types: original research articles, reviews, editorials, letters, and conference reports. AIMS Biophysics welcomes, but not limited to, the papers from the following topics: · Structural biology · Biophysical technology · Bioenergetics · Membrane biophysics · Cellular Biophysics · Electrophysiology · Neuro-Biophysics · Biomechanics · Systems biology
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