Howard Florey Institute, University of Melbourne, Parkville, Victoria 3010, Australia.
Mol Pharmacol. 2010 Oct;78(4):600-7. doi: 10.1124/mol.110.065458. Epub 2010 Jul 13.
Inhibitors of insulin-regulated aminopeptidase (IRAP) improve memory and are being developed as a novel treatment for memory loss. In this study, the binding of a class of these inhibitors to human IRAP was investigated using molecular docking and site-directed mutagenesis. Four benzopyran-based IRAP inhibitors with different affinities were docked into a homology model of the catalytic site of IRAP. Two 4-pyridinyl derivatives orient with the benzopyran oxygen interacting with the Zn(2+) ion and a direct parallel ring-stack interaction between the benzopyran rings and Phe544. In contrast, the two 4-quinolinyl derivatives orient in a different manner, interacting with the Zn(2+) ion via the quinoline nitrogen, and Phe544 contributes an edge-face hydrophobic stacking point with the benzopyran moiety. Mutagenic replacement of Phe544 with alanine, isoleucine, or valine resulted in either complete loss of catalytic activity or altered hydrolysis velocity that was substrate-dependent. Phe544 is also important for inhibitor binding, because these mutations altered the K(i) in some cases, and docking of the inhibitors into the corresponding Phe544 mutant models revealed how the interaction might be disturbed. These findings demonstrate a key role of Phe544 in the binding of the benzopyran IRAP inhibitors and for optimal positioning of enzyme substrates during catalysis.
胰岛素调节氨基肽酶(IRAP)抑制剂可改善记忆,目前正在开发作为治疗记忆丧失的新方法。在这项研究中,使用分子对接和定点突变研究了一类这些抑制剂与人类 IRAP 的结合。将具有不同亲和力的四种苯并吡喃基 IRAP 抑制剂对接入 IRAP 催化位点的同源模型中。两种 4-吡啶基衍生物的苯并吡喃氧与 Zn(2+) 离子相互作用,苯并吡喃环与 Phe544 之间存在直接平行的环堆叠相互作用。相比之下,两种 4-喹啉基衍生物以不同的方式定向,通过喹啉氮与 Zn(2+) 离子相互作用,而 Phe544 与苯并吡喃部分贡献一个边缘-面疏水性堆叠点。用丙氨酸、异亮氨酸或缬氨酸突变替换 Phe544 会导致完全丧失催化活性或水解速度发生改变,这取决于底物。Phe544 对抑制剂结合也很重要,因为这些突变在某些情况下改变了 K(i),并且将抑制剂对接入相应的 Phe544 突变体模型中揭示了这种相互作用可能如何受到干扰。这些发现表明 Phe544 在苯并吡喃 IRAP 抑制剂的结合以及在催化过程中酶底物的最佳定位中起着关键作用。
