Yao Lianbin, Ohlson Sten, Dymock Brian W
Department of Pharmacy, National University of Singapore, 18 Science Drive 4, Singapore 117543, Singapore.
School of Biological Sciences, Nanyang Technological University (NTU), Singapore 637551, Singapore.
Bioorg Med Chem Lett. 2018 May 1;28(8):1357-1362. doi: 10.1016/j.bmcl.2018.03.009. Epub 2018 Mar 3.
Inhibition of multiple signaling pathways in a cancer cell with a single molecule could result in better therapies that are simpler to administer. Efficacy may be achieved with reduced potency against individual targets if there is synergy through multiple pathway inhibition. To achieve this, it is necessary to be able to build multi-component ligands by joining together key pharmacophores in a way which maintains sufficient activity against the individual pathways. In this work, designed triple inhibiting ligands are explored aiming to block three completely different target types: a kinase (JAK2), an epigenetic target (HDAC) and a chaperone (HSP90). Although these enzymes have totally different functions they are related through inter-dependent pathways in the developing cancer cell. Synthesis of several complex multi-inhibiting ligands are presented along with initial enzyme inhibition data against 3 biological target classes of interest. A lead compound, 47, was discovered which had low micromolar activity for all 3 targets. Further development of these complex trispecific designed multiple ligands could result in a 'transient drug', an alternative combination therapy for treating cancer mediated via a single molecule.
用单个分子抑制癌细胞中的多种信号通路可能会产生更优且给药更简便的治疗方法。如果通过多通路抑制产生协同作用,那么即便对单个靶点的效力降低,也可能实现疗效。要做到这一点,就必须能够通过将关键药效基团连接在一起的方式构建多组分配体,同时保持对各个通路有足够的活性。在这项研究中,我们探索了设计的三联抑制配体,旨在阻断三种完全不同的靶点类型:一种激酶(JAK2)、一个表观遗传靶点(HDAC)和一种伴侣蛋白(HSP90)。尽管这些酶具有完全不同的功能,但它们在发育中的癌细胞中通过相互依赖的通路相互关联。本文介绍了几种复杂的多抑制配体的合成以及针对3种感兴趣的生物靶点类别的初始酶抑制数据。发现了一种先导化合物47,它对所有3个靶点都具有低微摩尔活性。这些复杂的三特异性设计的多配体的进一步开发可能会产生一种“瞬时药物”,这是一种通过单个分子介导的治疗癌症的替代联合疗法。
