Verhamme I, Kvassman J O, Day D, Debrock S, Vleugels N, Declerck P J, Shore J D
Henry Ford Health Sciences Center, Division of Biochemical Research, Detroit, Michigan 48202-3450, USA.
J Biol Chem. 1999 Jun 18;274(25):17511-7. doi: 10.1074/jbc.274.25.17511.
The serpin plasminogen activator inhibitor-1 (PAI-1) slowly converts to an inactive latent form by inserting a major part of its reactive center loop (RCL) into its beta-sheet A. A murine monoclonal antibody (MA-33B8), raised against the human plasminogen activator (tPA).PAI-1 complex, rapidly inactivates PAI-1. Results presented here indicate that MA-33B8 induces acceleration of the active-to-latent conversion. The antibody-induced inactivation of PAI-1 labeled with the fluorescent probe N, N'-dimethyl-N-(acetyl)-N'-(7-nitrobenz-2-oxa-1,3-diazol-4-yl) ethylene diamine (NBD) at P9 in the RCL caused a fluorescence enhancement and shift identical to those accompanying the spontaneous conversion of the P9.NBD PAI-1 to the latent form. Like latent PAI-1, antibody-inactivated PAI-1 was protected from cleavage by elastase. The rate constants for MA-33B8 binding, measured by NBD fluorescence or inactivation, were similar (1.3-1.8 x 10(4) M-1 s-1), resulting in a 4000-fold faster inactivation at 4.2 microM antibody binding sites. The apparent antibody binding rate constant, at least 1000 times slower than one limited by diffusion, indicates that exposure of its epitope depends on an unfavorable equilibrium of PAI-1. Our observations are consistent with this idea and suggest that the equilibrium involves partial insertion of the RCL into sheet A: latent, RCL-cleaved, and tPA-complexed PAI-1, which are inactive loop-inserted forms, bound much faster than active PAI-1 to MA-33B8, whereas two loop-extracted forms of PAI-1, modified to prevent loop insertion, did not bind or bound much more weakly to the antibody.
丝氨酸蛋白酶抑制剂纤溶酶原激活物抑制剂-1(PAI-1)通过将其反应中心环(RCL)的大部分插入其β-折叠A中,缓慢转化为无活性的潜伏形式。一种针对人纤溶酶原激活物(tPA)-PAI-1复合物产生的鼠单克隆抗体(MA-33B8)能迅速使PAI-1失活。此处给出的结果表明,MA-33B8可诱导活性形式向潜伏形式转化的加速。用荧光探针N,N'-二甲基-N-(乙酰基)-N'-(7-硝基苯并-2-恶唑-1,3-二氮杂环-4-基)乙二胺(NBD)标记RCL中P9位点的PAI-1,抗体诱导的PAI-1失活导致荧光增强和位移,这与P9.NBD PAI-1向潜伏形式的自发转化所伴随的情况相同。与潜伏的PAI-1一样,抗体失活的PAI-1对弹性蛋白酶的切割具有抗性。通过NBD荧光或失活测量的MA-33B8结合速率常数相似(1.3 - 1.8×10⁴ M⁻¹ s⁻¹),在4.2 μM抗体结合位点时失活速度快4000倍。表观抗体结合速率常数至少比受扩散限制的速率慢1000倍,这表明其表位的暴露取决于PAI-1的不利平衡。我们观察结果与此观点一致,并表明该平衡涉及RCL部分插入β-折叠A:潜伏的、RCL被切割的和与tPA复合的PAI-1,这些是无活性的环插入形式,比活性PAI-1与MA-33B8的结合快得多,而两种经修饰以防止环插入的环提取形式的PAI-1不与抗体结合或与抗体的结合弱得多。
