针对结核分枝杆菌(Mtb)1-脱氧-D-木酮糖5-磷酸还原异构酶(Dxr)的潜在双底物抑制剂的设计——一种新型结合模式的证据
Design of Potential Bisubstrate Inhibitors against (Mtb) 1-Deoxy-D-Xylulose 5-Phosphate Reductoisomerase (Dxr)-Evidence of a Novel Binding Mode.
作者信息
San Jose Géraldine, Jackson Emily R, Uh Eugene, Johny Chinchu, Haymond Amanda, Lundberg Lindsay, Pinkham Chelsea, Kehn-Hall Kylene, Boshoff Helena I, Couch Robin D, Dowd Cynthia S
机构信息
Department of Chemistry, George Washington University, Washington DC 20052, USA. ; Tel: 01 202 994 8405.
出版信息
Medchemcomm. 2013 Jul 1;4(7):1099-1104. doi: 10.1039/C3MD00085K.
Abstract
In most bacteria, the nonmevalonate pathway is used to synthesize isoprene units. Dxr, the second step in the pathway, catalyzes the NADPH-dependent reductive isomerization of 1-deoxy-D-xylulose-5-phosphate (DXP) to 2-C-methyl-D-erythritol-4-phosphate (MEP). Dxr is inhibited by natural products fosmidomycin and FR900098, which bind in the DXP binding site. These compounds, while potent inhibitors of Dxr, lack whole cell activity against (Mtb) due to their polarity. Our goal was to use the Mtb Dxr-fosmidomycin co-crystal structure to design bisubstrate ligands to bind to both the DXP and NADPH sites. Such compounds would be expected to demonstrate improved whole cell activity due to increased lipophilicity. Two series of compounds were designed and synthesized. Compounds from both series inhibited Mtb Dxr. The most potent compound () has an IC of 17.8 µM. Analysis shows binds to Mtb Dxr via a novel, non-bisubstrate mechanism. Further, the diethyl ester of inhibits Mtb growth making this class of compounds interesting lead molecules in the search for new antitubercular agents.
摘要
在大多数细菌中,非甲羟戊酸途径用于合成异戊二烯单元。该途径的第二步Dxr催化1-脱氧-D-木酮糖-5-磷酸(DXP)依赖NADPH的还原异构化反应生成2-C-甲基-D-赤藓糖醇-4-磷酸(MEP)。Dxr受到天然产物磷霉素和FR900098的抑制,它们结合在DXP结合位点。这些化合物虽然是Dxr的强效抑制剂,但由于其极性,对结核分枝杆菌(Mtb)缺乏全细胞活性。我们的目标是利用结核分枝杆菌Dxr-磷霉素共晶体结构设计双底物配体,使其同时结合DXP和NADPH位点。由于亲脂性增加,预计这类化合物将表现出更好的全细胞活性。设计并合成了两个系列的化合物。两个系列的化合物都抑制结核分枝杆菌Dxr。最有效的化合物()的IC为17.8µM。分析表明,该化合物通过一种新的非双底物机制与结核分枝杆菌Dxr结合。此外,该化合物的二乙酯抑制结核分枝杆菌生长,使这类化合物成为寻找新型抗结核药物的有趣先导分子。
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