Lu W, Randal M, Kossiakoff A, Kent S B
Gryphon Sciences, 250 East Grand Avenue, Suite 90, South San Francisco, CA 94080, USA.
Chem Biol. 1999 Jul;6(7):419-27. doi: 10.1016/s1074-5521(99)80060-x.
Intermolecular backbone H-bonding (N-H.O=C) is a common occurrence at the interface of protein-protein complexes. For instance, the amide NH groups of most residues in the binding loop of eglin c, a potent serine proteinase inhibitor from the leech Hirudo medicinalis, are H-bonded to the carbonyl groups of residues in the target enzyme molecules such as chymotrypsin, elastase and subtilisins. We sought to understand the energetic significance of these highly conserved backbone-backbone H-bonds in the enzyme-inhibitor complexes.
We synthesized an array of backbone-engineered ester analogs of eglin c using native chemical ligation to yield five inhibitor proteins each containing a single backbone ester bond from P3 to P2' (i.e. -CONH-to -COO-). The structure at the ligation site (P6-P5) is essentially unaltered as shown by a high-resolution analysis of the subtilisin-BPN'-eglin c complex. The free-energy changes (DeltaDeltaGNH-->O) associated with the binding of ester analogs at P3, P1 and P2' with bovine alpha-chymotrypsin, subtilisin Carlsberg and porcine pancreatic elastase range from 0-4.5 kcal/mol. Most markedly, the NH-->O substitution at P2 not only stabilizes the inhibitor but also enhances binding to the enzymes by as much as 500-fold.
Backbone H-bond contributions are context dependent in the enzyme-eglin c complexes. The interplay of rigidity and adaptability of the binding loop of eglin c seems to play a prominent role in defining the binding action.
分子间主链氢键(N-H.O=C)在蛋白质-蛋白质复合物的界面处普遍存在。例如,水蛭医用蛭(Hirudo medicinalis)来源的强效丝氨酸蛋白酶抑制剂水蛭素c(eglin c)结合环中大多数残基的酰胺NH基团与靶酶分子(如胰凝乳蛋白酶、弹性蛋白酶和枯草杆菌蛋白酶)中残基的羰基形成氢键。我们试图了解这些高度保守的主链-主链氢键在酶-抑制剂复合物中的能量意义。
我们使用天然化学连接法合成了一系列水蛭素c的主链工程化酯类似物,得到了五种抑制剂蛋白,每种蛋白在P3至P2'处均含有一个单一的主链酯键(即-CONH-变为-COO-)。枯草杆菌蛋白酶BPN'-水蛭素c复合物的高分辨率分析表明,连接位点(P6-P5)的结构基本未改变。与酯类似物在P3、P1和P2'处与牛α-胰凝乳蛋白酶、枯草杆菌蛋白酶卡尔伯格和猪胰弹性蛋白酶结合相关的自由能变化(ΔΔGNH→O)范围为0-4.5千卡/摩尔。最显著的是,P2处的NH→O取代不仅稳定了抑制剂,还使与酶的结合增强了多达500倍。
在酶-水蛭素c复合物中,主链氢键的贡献取决于具体情况。水蛭素c结合环的刚性和适应性之间的相互作用似乎在定义结合作用中起着重要作用。
