Sheppeck James E, Tebben Andrew, Gilmore John L, Yang Anle, Wasserman Zelda R, Decicco Carl P, Duan James J-W
Bristol-Myers Squibb Pharmaceutical Research Institute, PO Box 4000, Princeton, NJ 08543-4000, USA.
Bioorg Med Chem Lett. 2007 Mar 1;17(5):1408-12. doi: 10.1016/j.bmcl.2006.11.082. Epub 2006 Dec 3.
Recently, an X-ray co-crystal structure of our hydroxamate inhibitor IK682 and TACE [Niu, X.; Umland, S.; Ingram, R.; Beyer, B. M.; Liu, Y.-H.; Sun, J.; Lundell, D.; Orth, P. Arch. Biochem. Biophys. 2006, 451, 43-50] was published that explicitly shows the orientation of the hydroxamate and the TACE-selective 4-[(2-methyl-4-quinolinyl)methoxy]phenyl P1' group in the S1' and S3' sites. The preceding paper described a novel series of potent and TACE-selective hydantoins and we previously described pyrimidinetrione (barbiturate) inhibitors of TACE, both of which contain the same P1' group as IK682. Using this TACE-selective P1' group as an anchor, stereochemical and conformational constraints in the inhibitors, and restrictions to the active site Zn coordination geometry, we developed a highly plausible and predictive pharmacophore model that rationalizes the observed TACE activity of all three inhibitors.
最近,我们发表了异羟肟酸酯抑制剂IK682与肿瘤坏死因子α转换酶(TACE)的X射线共晶体结构[牛X;乌姆兰S;英格拉姆R;拜尔BM;刘Y-H;孙J;伦德尔D;奥思P。《生物化学与生物物理学报》2006年,451卷,43 - 50页],该结构明确显示了异羟肟酸酯以及TACE选择性的4-[(2-甲基-4-喹啉基)甲氧基]苯基P1'基团在S1'和S3'位点的取向。前一篇论文描述了一系列新型的强效且TACE选择性的乙内酰脲,我们之前还描述了TACE的嘧啶三酮(巴比妥酸盐)抑制剂,这两者都含有与IK682相同的P1'基团。以这个TACE选择性的P1'基团为锚定,结合抑制剂中的立体化学和构象限制,以及对活性位点锌配位几何结构的限制,我们开发了一个高度合理且具有预测性的药效团模型,该模型解释了所有三种抑制剂观察到的TACE活性。
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