Chaudhary A, Vasudha S, Rajagopal K, Komath S S, Garg N, Yadav M, Mande S C, Sahni G
Institute of Microbial Technology, Chandigarh, India.
Protein Sci. 1999 Dec;8(12):2791-805. doi: 10.1110/ps.8.12.2791.
The possible role of the central beta-domain (residues 151-287) of streptokinase (SK) was probed by site-specifically altering two charged residues at a time to alanines in a region (residues 230-290) previously identified by Peptide Walking to play a key role in plasminogen (PG) activation. These mutants were then screened for altered ability to activate equimolar "partner" human PG, or altered interaction with substrate PG resulting in an overall compromised capability for substrate PG processing. Of the eight initial alanine-linker mutants of SK, one mutant, viz. SK(KK256.257AA) (SK-D1), showed a roughly 20-fold reduction in PG activator activity in comparison to wild-type SK expressed in Escherichia coli (nSK). Five other mutants were as active as nSK, with two [SK(RE248.249AA) and SK(EK281.282AA), referred to as SK(C) and SK(H), respectively] showing specific activities approximately one-half and two-thirds, respectively, that of nSK. Unlike SK(C) and SK(H), however, SK(D1) showed an extended initial delay in the kinetics of PG activation. These features were drastically accentuated when the charges on the two Lys residues at positions 256 and 257 of nSK were reversed, to obtain SK(KK256.257EE) [SK(D2)]. This mutant showed a PG activator activity approximately 10-fold less than that of SK(D1). Remarkably, inclusion of small amounts of human plasmin (PN) in the PG activation reactions of SK(D2) resulted in a dramatic, PN dose-dependent rejuvenation of its PG activation capability, indicating that it required pre-existing PN to form a functional activator since it could not effect active site exposure in partner PG on its own, a conclusion further confirmed by its inability to show a "burst" of p-nitrophenol release in the presence of equimolar human PG and p-nitrophenyl guanidino benzoate. The steady-state kinetic parameters for HPG activation of its 1:1 complex with human PN revealed that although it could form a highly functional activator once "supplied" with a mature active site, the Km for PG was increased nearly eightfold in comparison to that of nSK-PN. SK mutants carrying simultaneous two- and three-site charge-cluster alterations, viz., SK(RE24249AA:EK281.282AA) [SK(CH)], SK(EK272.273AA;EK281.282AA) [SK(FH)], and SK(RE248.249AA;EK272.273AA:EK281.282AA+ ++) [SK(CFH)], showed additive/synergistic influence of multiple charge-cluster mutations on HPG activation when compared to the respective "single-site" mutants, with the "triple-site" mutant [SK(CFH)] showing absolutely no detectable HPG activation ability. Nevertheless, like the other constructs, the double- and triple-charge cluster mutants retained a native like affinity for complexation with partner PG. Their overall structure also, as judged by far-ultraviolet circular dichroism, was closely similar to that of nSK. These results provide the first experimental evidence for a direct assistance by the SK beta-domain in the docking and processing of substrate PG by the activator complex, a facet not readily evident probably because of the flexibility of this domain in the recent X-ray crystal structure of the SK-plasmin light chain complex.
通过将链激酶(SK)中央β结构域(第151 - 287位氨基酸残基)中一次两个带电荷的残基定点突变为丙氨酸,来探究其在先前通过肽步移法确定的在纤溶酶原(PG)激活中起关键作用的区域(第230 - 290位氨基酸残基)中的可能作用。然后筛选这些突变体,看其激活等摩尔“伙伴”人PG的能力是否改变,或者与底物PG的相互作用是否改变,从而导致底物PG加工的整体能力受损。在SK的八个初始丙氨酸连接子突变体中,一个突变体,即SK(KK256.257AA)(SK - D1),与在大肠杆菌中表达的野生型SK(nSK)相比,PG激活剂活性降低了约20倍。其他五个突变体与nSK活性相同,其中两个[SK(RE248.249AA)和SK(EK281.282AA),分别称为SK(C)和SK(H)]的比活性分别约为nSK的二分之一和三分之二。然而,与SK(C)和SK(H)不同,SK(D1)在PG激活动力学上显示出延长的初始延迟。当nSK第256和257位的两个赖氨酸残基上的电荷反转,得到SK(KK256.257EE) [SK(D2)]时,这些特征急剧增强。该突变体的PG激活剂活性比SK(D1)低约10倍。值得注意的是,在SK(D2)的PG激活反应中加入少量人纤溶酶(PN),会使其PG激活能力显著恢复,且呈PN剂量依赖性,这表明它需要预先存在的PN来形成功能性激活剂,因为它自身无法使伙伴PG暴露活性位点,这一结论通过其在等摩尔人PG和对硝基苯基胍基苯甲酸存在下无法显示对硝基苯酚释放的“爆发”而得到进一步证实。其与人PN的1:1复合物激活HPG的稳态动力学参数表明,尽管一旦“提供”成熟的活性位点它就能形成高度功能性的激活剂,但与nSK - PN相比,其对PG的Km增加了近8倍。携带同时双位点和三位点电荷簇改变的SK突变体,即SK(RE24249AA:EK281.282AA) [SK(CH)]、SK(EK272.273AA;EK281.282AA) [SK(FH)]和SK(RE248.249AA;EK272.273AA:EK281.282AA + ++) [SK(CFH)],与各自的“单位点”突变体相比,在激活HPG时显示出多个电荷簇突变的累加/协同影响,“三位点”突变体[SK(CFH)]完全没有可检测到的HPG激活能力。然而,与其他构建体一样,双电荷簇和三电荷簇突变体与伙伴PG复合时仍保留类似天然的亲和力。通过远紫外圆二色性判断,它们的整体结构也与nSK非常相似。这些结果为SKβ结构域在激活剂复合物对接和加工底物PG过程中提供直接辅助提供了首个实验证据,这一方面可能由于该结构域在最近SK - 纤溶酶轻链复合物的X射线晶体结构中的灵活性而不太明显。