Department of Microbiology and Immunology, Weill Medical College of Cornell University, 1300 York Ave., New York, NY 10065, United States.
Arch Biochem Biophys. 2010 Sep 15;501(2):214-20. doi: 10.1016/j.abb.2010.06.009. Epub 2010 Jun 15.
Via high-throughput screening of a natural compound library, we have identified a lipopeptide aldehyde, fellutamide B (1), as the most potent inhibitor of the Mycobacterium tuberculosis (Mtb) proteasome tested to date. Kinetic studies reveal that 1 inhibits both Mtb and human proteasomes in a time-dependent manner under steady-state condition. Remarkably, 1 inhibits the Mtb proteasome in a single-step binding mechanism with K(i)=6.8 nM, whereas it inhibits the human proteasome beta5 active site following a two-step mechanism with K(i)=11.5 nM and K(i)(*)=0.93 nM. Co-crystallization of 1 bound to the Mtb proteasome revealed a structural basis for the tight binding of 1 to the active sites of the Mtb proteasome. The hemiacetal group of 1 in the Mtb proteasome takes the (R)-configuration, whereas in the yeast proteasome it takes the (S)-configuration, indicating that the pre-chiral CHO group of 1 binds to the active site Thr1 in a different orientation. Re-examination of the structure of the yeast proteasome in complex with 1 showed significant conformational changes at the substrate-binding cleft along the active site. These structural differences are consistent with the different kinetic mechanisms of 1 against Mtb and human proteasomes.
通过高通量筛选天然化合物文库,我们发现一种脂肽醛,即法卢肽 B(1),是迄今为止测试过的对结核分枝杆菌(Mtb)蛋白酶体最有效的抑制剂。动力学研究表明,1 在稳态条件下以时间依赖性方式均抑制 Mtb 和人蛋白酶体。值得注意的是,1 以单步结合机制抑制 Mtb 蛋白酶体,K(i)=6.8 nM,而抑制人蛋白酶体β5 活性部位则遵循两步机制,K(i)=11.5 nM 和 K(i)(*)=0.93 nM。1 与 Mtb 蛋白酶体的共结晶揭示了 1 与 Mtb 蛋白酶体活性部位紧密结合的结构基础。1 在 Mtb 蛋白酶体中的半缩醛基团呈 (R)-构型,而在酵母蛋白酶体中呈 (S)-构型,表明 1 的前手性 CHO 基团以不同的取向结合到活性部位 Thr1。重新检查 1 与酵母蛋白酶体复合物的结构表明,活性部位底物结合裂隙处的构象发生了显著变化。这些结构差异与 1 对 Mtb 和人蛋白酶体的不同动力学机制一致。