Organic Chemistry, Lund University, P.O. Box 124, Lund, Sweden.
Chembiochem. 2007 Aug 13;8(12):1389-98. doi: 10.1002/cbic.200700040.
Aromatic lactose 2-O-esters were synthesized and used to probe arene-arginine interactions with the galectin family of proteins. They were found to be low microM inhibitors of galectin-1, -3, and -9N-terminal domain and moderate inhibitors of galectin-7, but not inhibitors of galectin-8N-terminal, which lacks an arginine residue close to the critical, esterified lactose 2-O-position. Molecular modeling of galectins in complex with aromatic lactose 2-O-esters, as well as binding studies with a galectin-3 R186S mutant, confirmed that the inhibitory efficiency of the lactose 2-O-esters was due to the formation of strong interactions between the aromatic ester moieties and the arginine guanidinium groups of galectin-1 and -3. An important common feature shared by galectin-1 and -3 was that the arginines formed in-plane ion pairs with two side-chain carboxylates, which resulted in extended planar pi-electron surfaces that did not require solvation by water; these surfaces were ideal for stacking with aromatic moieties of the ligands. The results provide a basis for the design of lectin inhibitors and drugs that exploit interactions with arginine side-chains via aromatic moieties, which are involved in intramolecular protein salt bridges.
芳香乳糖 2-O-酯被合成并用于探测芳基精氨酸与半乳凝集素家族蛋白的相互作用。它们被发现是半乳凝集素-1、-3 和 -9N 端结构域的低微摩尔抑制剂,是半乳凝集素-7 的中等抑制剂,但不是缺乏靠近关键酯化乳糖 2-O-位的精氨酸残基的半乳凝集素-8N 端结构域的抑制剂。与芳香乳糖 2-O-酯复合物的半乳凝集素的分子建模以及与半乳凝集素-3 R186S 突变体的结合研究证实,乳糖 2-O-酯的抑制效率归因于芳香酯部分与半乳凝集素-1 和 -3 的精氨酸胍基之间形成的强相互作用。半乳凝集素-1 和 -3 之间的一个重要共同特征是精氨酸与两个侧链羧酸形成平面离子对,这导致扩展的平面π电子表面,不需要水的溶剂化;这些表面非常适合与配体的芳族部分堆叠。这些结果为设计通过芳族部分与精氨酸侧链相互作用的凝集素抑制剂和药物提供了基础,这些相互作用涉及分子内蛋白质盐桥。
