Hricovíni M, Guerrini M, Bisio A
Institute of Chemistry, Slovak Academy of Sciences, Bratislava, Slovakia.
Eur J Biochem. 1999 May;261(3):789-801. doi: 10.1046/j.1432-1327.1999.00335.x.
A complex of the synthetic tetrasaccharide AGAIM [GlcN, 6-SO3-alpha(1-4)-GlcA-beta(1-4)-GlcN,3, 6-SO3-alpha(1-4)-IdoA-alphaOMe] and the plasma protein antithrombin has been studied by NMR spectroscopy. 1H and 13C chemical shifts, three-bond proton-proton (3JH-H) and one-bond proton-carbon coupling constants (1JC-H) as well as transferred NOEs and rotating frame Overhauser effects (ROEs) were monitored as a function of the protein : ligand molar ratio and temperature. Considerable changes were observed at both 20 : 1 and 10 : 1 ratios (AGAIM : antithrombin) in 1H as well as 13C chemical shifts. The largest changes in 1H chemical shifts, and the linewidths, were found for proton resonances (A1, A2, A6, A6', A1*, A2*, A3*, A4*) in GlcN, 6-SO3 and GlcN,3,6-SO3 units, indicating that both glucosamine residues are strongly involved in the binding process. The changes in the linewidths in the IdoA residue were considerably smaller than those in other residues, suggesting that the IdoA unit experienced different internal dynamics during the binding process. This observation was supported by measurements of 3JH-H and 1JC-H. The magnitude of the three-bond proton-proton couplings (3JH1-H2 = 2.51 Hz and 3JH4-H5 = 2.23 Hz) indicate that in the free state an equilibrium exists between 1C4 and 2S0 conformers in the ratio of approximately 75 : 25. The chair form appears the more favourable in the presence of antithrombin, as inferred from the magnitude of the coupling constants. In addition, two-dimensional NOESY and ROESY experiments in the free ligand, as well as transferred NOESY and ROESY spectra of the complex, were measured and interpreted using full relaxation and conformational exchange matrix analysis. The theoretical NOEs were computed using the geometry of the tetrasaccharide found in a Monte Carlo conformational search, and the three-dimensional structures of AGA*IM in both free and bound forms were derived. All monitored NMR variables, 1H and 13C chemical shifts, 1JC-H couplings and transferred NOEs, indicated that the changes in conformation at the glycosidic linkage GlcN, 6-SO3-alpha(1-4)-GlcA were induced by the presence of antithrombin and suggested that the receptor selected a conformer different from that in the free state. Such changes are compatible with the two-step model [Desai, U.R., Petitou, M., Bjork, I. & Olson, S. (1998) J. Biol. Chem. 273, 7478-7487] for the interaction of heparin-derived oligosaccharides with antithrombin, but with a minor extension: in the first step a low-affinity recognition complex between ligand and receptor is formed, accompanied by a conformational change in the tetrasaccharide, possibly creating a complementary three-dimensional structure to fit the protein-binding site. During the second step, as observed in a structurally similar pentasaccharide [Skinner, R., Abrahams, J.-P., Whisstock, J.C., Lesk, A.M., Carrell, R.W. & Wardell, M.R. (1997) J. Mol. Biol. 266, 601-609; Jin, L., Abrahams, J.-P., Skinner, R., Petitou, M., Pike, R. N. & Carrell, R.W. (1997) Proc. Natl Acad. Sci. USA 94, 14683-14688], conformational changes in the binding site of the protein result in a latent conformation.
通过核磁共振光谱法研究了合成四糖AGAIM [GlcN, 6-SO3-α(1-4)-GlcA-β(1-4)-GlcN,3, 6-SO3-α(1-4)-IdoA-αOMe] 与血浆蛋白抗凝血酶的复合物。监测了¹H和¹³C化学位移、三键质子-质子 (³JH-H) 和一键质子-碳耦合常数 (¹JC-H) 以及转移核Overhauser效应 (NOE) 和旋转坐标系Overhauser效应 (ROE) 随蛋白质与配体摩尔比和温度的变化。在20:1和10:1的比例(AGAIM:抗凝血酶)下,¹H以及¹³C化学位移均观察到显著变化。在GlcN, 6-SO3和GlcN,3,6-SO3单元中的质子共振(A1、A2、A6、A6'、A1*、A2*、A3*、A4*)的¹H化学位移和线宽变化最大,表明两个葡糖胺残基都强烈参与了结合过程。艾杜糖醛酸残基中线宽的变化比其他残基中的变化小得多,这表明艾杜糖醛酸单元在结合过程中经历了不同的内部动力学。³JH-H和¹JC-H的测量结果支持了这一观察。三键质子-质子耦合的大小(³JH1-H2 = 2.51 Hz和³JH4-H5 = 2.23 Hz)表明,在自由状态下,1C4和2S0构象体之间存在平衡,比例约为75:25。从耦合常数的大小推断,在抗凝血酶存在的情况下,椅式构象似乎更有利。此外,测量了游离配体中的二维NOESY和ROESY实验以及复合物的转移NOESY和ROESY光谱,并使用完全弛豫和构象交换矩阵分析进行了解释。使用蒙特卡罗构象搜索中发现的四糖几何结构计算了理论NOE,并推导了AGA*IM自由和结合形式的三维结构。所有监测的核磁共振变量,¹H和¹³C化学位移、¹JC-H耦合和转移NOE,都表明抗凝血酶的存在诱导了糖苷键GlcN, 6-SO3-α(1-4)-GlcA处的构象变化,并表明受体选择了一种与自由状态不同的构象体。这种变化与肝素衍生的寡糖与抗凝血酶相互作用的两步模型 [Desai, U.R., Petitou, M., Bjork, I. & Olson, S. (1998) J. Biol. Chem. 273, 7478-7487] 一致,但有一个小的扩展:在第一步中,配体和受体之间形成了低亲和力识别复合物,同时四糖发生构象变化,可能形成一个互补的三维结构以适应蛋白质结合位点。在第二步中,如在结构相似的五糖中观察到的 [Skinner, R., Abrahams, J.-P., Whisstock, J.C., Lesk, A.M., Carrell, R.W. & Wardell, M.R. (1997) J. Mol. Biol. 266, 601-609; Jin, L., Abrahams, J.-P., Skinner, R., Petitou, M., Pike, R. N. & Carrell, R.W. (1997) Proc. Natl Acad. Sci. USA 94, 14683-14688],蛋白质结合位点的构象变化导致了一种潜在构象。
