导致胱抑素C产生蛋白水解敏感性的局部pH依赖性构象变化。
Local pH-dependent conformational changes leading to proteolytic susceptibility of cystatin C.
作者信息
Berti P J, Storer A C
机构信息
Biotechnology Research Institute, National Research Council of Canada, Montréal, Québec.
出版信息
Biochem J. 1994 Sep 1;302 ( Pt 2)(Pt 2):411-6. doi: 10.1042/bj3020411.
Cystatin C, a cysteine protease inhibitor, was subject to hydrolysis at two sites when complexed with papain and in the presence of excess papain. A pH-dependent cleavage at His-86 increases Asp-87 was observed, as well as a pH-independent one at Gly-4 increases Lys-5. His-86 increases Asp-87 hydrolysis increased with decreasing pH and was characterized kinetically. It could be described by a single ionization with pKa = 3.4 +/- 0.2 and (kcat./Km)max. = 1.4 (+/- 0.4) x 10(4) M-1.s-1 at I = 0.3 M. C.d. spectroscopy, also at I = 0.3 M, demonstrated a conformational change with pKa = 3.2 +/- 0.2, indicating that the pH-dependence of hydrolysis was due to a conformational change in cystatin C. At I = 0.15 M, the pKa of the conformational change observed by c.d. shifted to 4.1 +/- 0.1. This indicates that at physiological ionic strength of 0.15 M, a significant proportion of cystatin C complexed with protease would be in a proteolytically labile conformation over the pH range 4.5 to 5, which is encountered in lysosomes. This may constitute a mechanism for clearing inappropriately localized cystatins. A pH-dependent conformational variability in this region of the inhibitor could explain the differences in the X-ray crystallographic and n.m.r. structures of the homologous chicken cystatin. The ionic-strength dependence of ionization indicates a hydrophobic stabilization of the ionizable group. The lack of pH-dependence of hydrolysis at Gly-4 increases Lys-5, with kcat./Km = 220 +/- 41 M-1.s-1 in the pH range 3.89 to 7.96 was unexpected in light of the normal, bell-shaped pH-dependence of papain-catalysed hydrolyses. This may reflect a different rate-limiting step of cystatin C hydrolysis.
胱抑素C是一种半胱氨酸蛋白酶抑制剂,当与木瓜蛋白酶复合且存在过量木瓜蛋白酶时,它会在两个位点发生水解。观察到在His - 86处的pH依赖性切割增加了Asp - 87,以及在Gly - 4处的pH非依赖性切割增加了Lys - 5。His - 86增加Asp - 87的水解随着pH降低而增加,并对其进行了动力学表征。它可以用单一电离来描述,pKa = 3.4±0.2,在I = 0.3 M时(kcat./Km)max. = 1.4(±0.4)×10⁴ M⁻¹·s⁻¹。同样在I = 0.3 M时的圆二色光谱显示构象变化,pKa = 3.2±0.2,表明水解的pH依赖性是由于胱抑素C的构象变化。在I = 0.15 M时,通过圆二色观察到的构象变化的pKa移至4.1±0.1。这表明在0.15 M的生理离子强度下,与蛋白酶复合的很大一部分胱抑素C在4.5至5的pH范围内会处于蛋白水解不稳定的构象,这在溶酶体中会遇到。这可能构成一种清除定位不当的胱抑素的机制。抑制剂该区域的pH依赖性构象变异性可以解释同源鸡胱抑素的X射线晶体学和核磁共振结构的差异。电离的离子强度依赖性表明可电离基团的疏水稳定作用。鉴于木瓜蛋白酶催化水解的正常钟形pH依赖性,Gly - 4增加Lys - 5处水解缺乏pH依赖性,在pH范围3.89至7.96时kcat./Km = 220±41 M⁻¹·s⁻¹是出乎意料的。这可能反映了胱抑素C水解的不同限速步骤。
Zotero 插件