稳定的环丙烷类似物作为剪接抑制剂 FD-895。
Stabilized cyclopropane analogs of the splicing inhibitor FD-895.
机构信息
Department of Chemistry and Biochemistry, University of California San Diego , 9500 Gilman Drive, La Jolla, California 92093-0358, United States.
出版信息
J Med Chem. 2013 Sep 12;56(17):6576-82. doi: 10.1021/jm400861t. Epub 2013 Aug 21.
Abstract
Targeting the spliceosome with small molecule inhibitors provides a new avenue to target cancer by intercepting alternate splicing pathways. Although our understanding of alternate mRNA splicing remains poorly understood, it provides an escape pathway for many cancers resistant to current therapeutics. These findings have encouraged recent academic and industrial efforts to develop natural product spliceosome inhibitors, including FD-895 (1a), pladienolide B (1b), and pladienolide D (1c), into next-generation anticancer drugs. The present study describes the application of semisynthesis and total synthesis to reveal key structure-activity relationships for the spliceosome inhibition by 1a. This information is applied to deliver new analogs with improved stability and potent activity at inhibiting splicing in patient derived cell lines.
摘要
靶向剪接体的小分子抑制剂为通过阻断可变剪接途径靶向癌症提供了新途径。尽管我们对可变 mRNA 剪接的理解仍然知之甚少,但它为许多对当前治疗方法有抗药性的癌症提供了一条逃避途径。这些发现鼓励了最近的学术和工业努力,以开发天然产物剪接体抑制剂,包括 FD-895(1a)、普乐迪醇 B(1b)和普乐迪醇 D(1c),将其开发成下一代抗癌药物。本研究描述了半合成和全合成的应用,以揭示 1a 对剪接体抑制的关键结构-活性关系。该信息用于提供具有改善的稳定性和在抑制患者来源细胞系中的剪接方面的有效活性的新型类似物。
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