Steinkühler C, Urbani A, Tomei L, Biasiol G, Sardana M, Bianchi E, Pessi A, De Francesco R
Istituto di Ricerche di Biologia Molecolare "P. Angeletti" Pomezia, Rome, Italy.
J Virol. 1996 Oct;70(10):6694-700. doi: 10.1128/JVI.70.10.6694-6700.1996.
The protease domain of the hepatitis C virus (HCV) protein NS3 was expressed in Escherichia coli, purified to homogeneity, and shown to be active on peptides derived from the sequence of the NS4A-NS4B junction. Experiments were carried out to optimize protease activity. Buffer requirements included the presence of detergent, glycerol, and dithiothreitol, pH between 7.5 and 8.5, and low ionic strength. C- and N-terminal deletion experiments defined a peptide spanning from the P6 to the P4' residue as a suitable substrate. Cleavage kinetics were subsequently measured by using decamer P6-P4' peptides corresponding to all intermolecular cleavage sites of the HCV polyprotein. The following order of cleavage efficiency, in terms of kcat/Km, was determined: NS5A-NS5B > NS4A-NS4B >> NS4B-NS5A. A 14-mer peptide containing residues 21 to 34 of the protease cofactor NS4A (Pep4A 21-34), when added in stoichiometric amounts, was shown to increase cleavage rates of all peptides, the largest effect (100-fold) being observed on the hydrolysis of the NS4B-NS5A decamer. From the kinetic analysis of cleavage data, we conclude that (i) primary structure is an important determinant of the efficiency with which each site is cleaved during polyprotein processing, (ii) slow cleavage of the NS4B-NS5A site in the absence of NS4A is due to low binding affinity of the enzyme for this site, and (iii) formation of a 1:1 complex between the protease and Pep4A 21-34 is sufficient and required for maximum activation.
丙型肝炎病毒(HCV)蛋白NS3的蛋白酶结构域在大肠杆菌中表达,纯化至同质,并显示对源自NS4A-NS4B连接序列的肽具有活性。进行实验以优化蛋白酶活性。缓冲液要求包括存在去污剂、甘油和二硫苏糖醇,pH在7.5至8.5之间,以及低离子强度。C端和N端缺失实验确定了一个从P6到P4'残基的肽作为合适的底物。随后通过使用对应于HCV多聚蛋白所有分子间切割位点的十聚体P6-P4'肽来测量切割动力学。就kcat/Km而言,确定了以下切割效率顺序:NS5A-NS5B > NS4A-NS4B >> NS4B-NS5A。当以化学计量添加包含蛋白酶辅因子NS4A的21至34位残基的14聚体肽(Pep4A 21-34)时,显示其可提高所有肽的切割速率,对NS4B-NS5A十聚体的水解观察到最大效果(100倍)。从切割数据的动力学分析中,我们得出以下结论:(i)一级结构是多聚蛋白加工过程中每个位点切割效率的重要决定因素,(ii)在没有NS4A的情况下NS4B-NS5A位点的缓慢切割是由于酶对该位点的低结合亲和力,以及(iii)蛋白酶与Pep4A 21-34之间形成1:1复合物对于最大激活是足够且必需的。