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具有(R)-(-)-香芹酮为构象控制单元的可合成类似物阿普里西汀的设计、合成及生物活性。

Design, synthesis, and biological activity of a synthetically accessible analog of aplysiatoxin with an (R)-(-)-carvone-based conformation-controlling unit.

机构信息

Division of Applied Biological and Rare Sugar Sciences, Graduate School of Agriculture, Kagawa University, Kagawa, Japan.

Department of Applied Biological Science, Faculty of Agriculture, Kagawa University, Kagawa, Japan.

出版信息

Biosci Biotechnol Biochem. 2022 Jul 22;86(8):1013-1023. doi: 10.1093/bbb/zbac084.

DOI:10.1093/bbb/zbac084
PMID:35648459
Abstract

Simplified analogs of aplysiatoxin (ATX) such as 10-Me-aplog-1 exhibit potent antiproliferative activity toward human cancer cell lines by activating protein kinase C (PKC). However, the synthesis of 10-Me-aplog-1 involved a 23-step longest linear sequence (LLS). Therefore, we have been working toward the development of a more synthetically accessible analog of ATX. In this study, we designed a new analog of ATX wherein a cyclic ketal moiety derived from (R)-(-)-carvone replaced the spiroketal moiety in 18-deoxy-aplog-1. The new analog's synthesis proceeded in an 8-step LLS. Although the configuration at position 3 of the cyclic ketal in the (R)-(-)-carvone-based analog was opposite to those of ATX and 18-deoxy-aplog-1, the antiproliferative activity toward human cancer cell lines of the carvone-based analog was comparable with that of 18-deoxy-aplog-1. The obtained results indicate the potential of the carvone-based analog as a basis for discovering PKC-targeting molecules requiring a decreased number of synthetic steps.

摘要

简化类似物aplysiatoxin (ATX)如 10-Me-aplog-1 通过激活蛋白激酶 C (PKC)表现出对人类癌细胞系的强大抗增殖活性。然而,10-Me-aplog-1 的合成涉及 23 步最长线性序列 (LLS)。因此,我们一直在努力开发更具合成可及性的 ATX 类似物。在这项研究中,我们设计了一种新的 ATX 类似物,其中 (R)-(-)-柠檬烯衍生的环缩酮部分取代了 18-脱氧-aplog-1 中的螺缩酮部分。新类似物的合成经过 8 步 LLS 进行。尽管 (R)-(-)-柠檬烯基类似物中环缩酮在 3 位的构型与 ATX 和 18-脱氧-aplog-1 的构型相反,但该柠檬烯基类似物对人类癌细胞系的抗增殖活性与 18-脱氧-aplog-1 相当。所得结果表明,该柠檬烯基类似物具有作为发现需要减少合成步骤的 PKC 靶向分子的基础的潜力。

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