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一种包含人类严重急性呼吸综合征冠状病毒S蛋白加工位点的荧光肽:动力学评估与核磁共振结构解析

A fluorogenic peptide containing the processing site of human SARS corona virus S-protein: kinetic evaluation and NMR structure elucidation.

作者信息

Basak Ajoy, Mitra Abhijit, Basak Sarmistha, Pasko Carolyn, Chrétien Michel, Seaton Pamela

机构信息

Hormone, Growth, and Development Program, Regional Protein Chemistry Center, Ottawa Health Research Institute, University of Ottawa, 725 Parkdale Ave., Ottawa, ON K1Y 4E9, Canada.

出版信息

Chembiochem. 2007 Jun 18;8(9):1029-37. doi: 10.1002/cbic.200700007.

Abstract

Human severe acute respiratory syndrome coronavirus (hSARS-CoV) is the causative agent for SARS infection. Its surface glycoprotein (spike protein) is considered to be one of the prime targets for SARS therapeutics and intervention because its proteolytic maturation by a host protease is crucial for host-virus fusion. Using intramolecularly quenched fluorogenic (IQF) peptides based on hSARS-CoV spike protein (Abz-(755)Glu-Gln-Asp-Arg-Asn-Thr-Arg-Glu-Val-Phe-Ala-Gln(766)-Tyx-NH(2)) and in vitro studies, we show that besides furin, other PCs, like PC5 and PC7, might also be involved in this cleavage event. Through kinetic measurements with recombinant PCs, we observed that the peptide was cleaved efficiently by both furin and PC5, but very poorly by PC7. The cleavage could be blocked by a PC-inhibitor, alpha1-PDX, in a dose-dependent manner. Circular dichroism spectra indicated that this peptide possesses a high degree of sheet structure. Following cleavage by furin, the sheet content increased, possibly at the expense of turn and random structures. (1)H NMR spectra from 2D COSY and ROESY experiments under physiological buffer and pH conditions indicated that this peptide possesses a structure with a turn at its C-terminal segment, close to the cleavage site. The data suggest that the cleavable peptide bond is located within the most exposed domain; this is supported by the nearby turn structure. Several strong to weak NMR ROESY correlations were detected, and a 3D structure of the spike IQF peptide that contains the crucial cleavage site R(761) E has been proposed.

摘要

人类严重急性呼吸综合征冠状病毒(hSARS-CoV)是导致SARS感染的病原体。其表面糖蛋白(刺突蛋白)被认为是SARS治疗和干预的主要靶点之一,因为宿主蛋白酶对其进行蛋白水解成熟对于宿主-病毒融合至关重要。基于hSARS-CoV刺突蛋白(Abz-(755)Glu-Gln-Asp-Arg-Asn-Thr-Arg-Glu-Val-Phe-Ala-Gln(766)-Tyx-NH(2))使用分子内淬灭荧光(IQF)肽并通过体外研究,我们发现除了弗林蛋白酶外,其他蛋白酶,如PC5和PC7,也可能参与了这一切割事件。通过对重组蛋白酶进行动力学测量,我们观察到该肽能被弗林蛋白酶和PC5有效切割,但被PC7切割的效率很低。该切割可被蛋白酶抑制剂α1-PDX以剂量依赖的方式阻断。圆二色光谱表明该肽具有高度的β折叠结构。在被弗林蛋白酶切割后,β折叠含量增加,可能是以转角和无规结构为代价。在生理缓冲液和pH条件下进行的二维COSY和ROESY实验的(1)H NMR光谱表明该肽在其靠近切割位点的C末端片段具有一个转角结构。数据表明可切割的肽键位于最暴露的结构域内;这得到了附近转角结构的支持。检测到了几个从强到弱的NMR ROESY相关性,并提出了包含关键切割位点R(761)E的刺突IQF肽的三维结构。

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