分枝杆菌被环马菌素 A 抑制的结构基础。
Structural basis of mycobacterial inhibition by cyclomarin A.
机构信息
From the Novartis Institute for Tropical Diseases, 05-01 Chromos, Singapore 138670.
出版信息
J Biol Chem. 2013 Oct 25;288(43):30883-91. doi: 10.1074/jbc.M113.493767. Epub 2013 Sep 10.
Abstract
Cyclomarin A (CymA) was identified as a mycobactericidal compound targeting ClpC1. However, the target was identified based on pulldown experiments and in vitro binding data, without direct functional evidence in mycobacteria. Here we show that CymA specifically binds to the N-terminal domain of ClpC1. In addition we have determined the co-crystal structure of CymA bound to the N-terminal domain of ClpC1 to high resolution. Based on the structure of the complex several mutations were engineered into ClpC1, which showed reduced CymA binding in vitro. The ClpC1 mutants were overexpressed in mycobacteria and two showed resistance to CymA, providing the first direct evidence that ClpC1 is the target of CymA. Phe(80) is important in vitro and in cells for the ClpC1-CymA interaction and this explains why other bacteria are resistant to CymA. A model for how CymA binding to the N-terminal domain of ClpC1 leads to uncontrolled proteolysis by the associated ClpP protease machinery is discussed.
摘要
环马菌素 A(CymA)被鉴定为一种针对 ClpC1 的杀菌化合物。然而,该靶点是基于下拉实验和体外结合数据确定的,而在分枝杆菌中没有直接的功能证据。在这里,我们表明 CymA 特异性结合到 ClpC1 的 N 端结构域。此外,我们还确定了 CymA 与 ClpC1 的 N 端结构域结合的复合物的高分辨率共晶结构。基于该结构,我们对 ClpC1 进行了几个突变工程,这些突变在体外显示出 CymA 结合减少。ClpC1 突变体在分枝杆菌中过表达,其中两个显示出对 CymA 的抗性,这首次直接证明 ClpC1 是 CymA 的靶标。苯丙氨酸(80)在体外和细胞内对 ClpC1-CymA 相互作用很重要,这解释了为什么其他细菌对 CymA 有抗性。讨论了 CymA 与 ClpC1 的 N 端结构域结合如何导致与相关的 ClpP 蛋白酶机制失控的蛋白水解的模型。
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