McNamara Dan E, Senese Silvia, Yeates Todd O, Torres Jorge Z
Department of Chemistry and Biochemistry, University of California, Los Angeles, Los Angeles, California, 90095.
Molecular Biology Institute, University of California, Los Angeles, Los Angeles, California, 90095.
Protein Sci. 2015 Jul;24(7):1164-72. doi: 10.1002/pro.2704. Epub 2015 May 27.
Small molecules that bind to tubulin exert powerful effects on cell division and apoptosis (programmed cell death). Cell-based high-throughput screening combined with chemo/bioinformatic and biochemical analyses recently revealed a novel compound MI-181 as a potent mitotic inhibitor with heightened activity towards melanomas. MI-181 causes tubulin depolymerization, activates the spindle assembly checkpoint arresting cells in mitosis, and induces apoptotic cell death. C2 is an unrelated compound previously shown to have lethal effects on microtubules in tumorigenic cell lines. We report 2.60 Å and 3.75 Å resolution structures of MI-181 and C2, respectively, bound to a ternary complex of αβ-tubulin, the tubulin-binding protein stathmin, and tubulin tyrosine ligase. In the first of these structures, our crystallographic results reveal a unique binding mode for MI-181 extending unusually deep into the well-studied colchicine-binding site on β-tubulin. In the second structure the C2 compound occupies the colchicine-binding site on β-tubulin with two chemical moieties recapitulating contacts made by colchicine, in combination with another system of atomic contacts. These insights reveal the source of the observed effects of MI-181 and C2 on microtubules, mitosis, and cultured cancer cell lines. The structural details of the interaction between tubulin and the described compounds may guide the development of improved derivative compounds as therapeutic candidates or molecular probes to study cancer cell division.
与微管蛋白结合的小分子对细胞分裂和细胞凋亡(程序性细胞死亡)具有强大的影响。基于细胞的高通量筛选结合化学/生物信息学和生化分析,最近发现了一种新型化合物MI-181,它是一种有效的有丝分裂抑制剂,对黑色素瘤具有增强的活性。MI-181导致微管蛋白解聚,激活纺锤体组装检查点,使细胞停滞在有丝分裂期,并诱导凋亡性细胞死亡。C2是一种无关的化合物,先前已证明它对致瘤细胞系中的微管具有致死作用。我们分别报告了MI-181和C2与αβ-微管蛋白、微管蛋白结合蛋白stathmin和微管蛋白酪氨酸连接酶的三元复合物结合的分辨率为2.60 Å和3.75 Å的结构。在这些结构中的第一个中,我们的晶体学结果揭示了MI-181一种独特的结合模式,它异常深入地延伸到β-微管蛋白上研究充分的秋水仙碱结合位点。在第二个结构中,C2化合物占据β-微管蛋白上的秋水仙碱结合位点,其两个化学基团重现了秋水仙碱形成的接触,并结合了另一个原子接触系统。这些见解揭示了MI-181和C2对微管、有丝分裂和培养的癌细胞系所观察到的效应的来源。微管蛋白与所述化合物之间相互作用的结构细节可能会指导开发改进的衍生物作为治疗候选物或研究癌细胞分裂的分子探针。