Department of Medicinal Chemistry, College of Pharmacy, University of Minnesota, 308 Harvard Street SE, Minneapolis, Minnesota 55455, United States.
J Med Chem. 2012 Jun 14;55(11):5566-81. doi: 10.1021/jm300515q. Epub 2012 May 23.
Multidrug resistance (MDR) against standard therapies poses a serious challenge in cancer treatment, and there is a clinical need for new anticancer agents that would selectively target MDR malignancies. Our previous studies have identified a 4H-chromene system, CXL017 (4) as an example, that can preferentially kill MDR cancer cells. To further improve its potency, we have performed detailed structure-activity relationship (SAR) studies at the 3, 4, and 6 positions of the 4H-chromene system. The results reveal that the 3 and 4 positions prefer rigid and hydrophobic functional groups while the 6 position prefers a meta or para-substituted aryl functional group and the substituent should be small and hydrophilic. We have also identified and characterized nine MDR cancer cells that acquire MDR through different mechanisms and demonstrated the scope of our new lead, 9g, to selectively target different MDR cancers, which holds promise to help manage MDR in cancer treatment.
多药耐药(MDR)对标准疗法构成了严重挑战,因此需要新的抗癌药物来选择性地靶向 MDR 恶性肿瘤。我们之前的研究已经确定了 4H-色烯系统,例如 CXL017(4),它可以优先杀死 MDR 癌细胞。为了进一步提高其效力,我们在 4H-色烯系统的 3、4 和 6 位进行了详细的构效关系(SAR)研究。结果表明,3 位和 4 位优先选择刚性和疏水性官能团,而 6 位优先选择间位或对位取代的芳基官能团,取代基应该小且亲水性。我们还鉴定并表征了九种通过不同机制获得 MDR 的 MDR 癌症细胞,并证明了我们的新型先导化合物 9g 选择性靶向不同 MDR 癌症的范围,这有望有助于管理癌症治疗中的 MDR。