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4-烷基取代基对恩格勒菌素系列活性的重要性。

Importance of a 4-Alkyl Substituent for Activity in the Englerin Series.

作者信息

Elliott Daniel C, Beutler John A, Parker Kathlyn A

机构信息

Department of Chemistry, Stony Brook University, Stony Brook, New York 11794-3400, United States.

Molecular Targets Laboratory, National Cancer Institute, Frederick, Maryland 21702, United States.

出版信息

ACS Med Chem Lett. 2017 Jun 6;8(7):746-750. doi: 10.1021/acsmedchemlett.7b00161. eCollection 2017 Jul 13.

DOI:10.1021/acsmedchemlett.7b00161
PMID:28740610
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5512125/
Abstract

The ring closing metathesis/transannular etherification approach to the englerin nucleus was adapted to provide two key intermediates for analogue synthesis: the 4-desmethyl Δ tricycle and the 4-oxo Δ tricycle. The former was elaborated to 4-desmethyl englerin A and the latter served as a common precursor for englerin A, 4-ethyl englerin A, and 4-isopropyl englerin A. 4-Desmethyl englerin A was less active than the natural product by an order of magnitude, but the 4-ethyl and 4-isopropyl analogues were comparable in activity to englerin A. These results are consistent with the premise that the 4-alkyl group enforces the binding conformation of the cinnamoyl ester substituent. Furthermore, they suggest that 4-alkyl englerin structures may prove to be useful tool compounds.

摘要

用于合成恩格勒菌素核心结构的关环复分解/跨环醚化方法被用于制备两种用于类似物合成的关键中间体:4-去甲基Δ三环化合物和4-氧代Δ三环化合物。前者被进一步转化为4-去甲基恩格勒菌素A,后者则作为恩格勒菌素A、4-乙基恩格勒菌素A和4-异丙基恩格勒菌素A的共同前体。4-去甲基恩格勒菌素A的活性比天然产物低一个数量级,但4-乙基和4-异丙基类似物的活性与恩格勒菌素A相当。这些结果与4-烷基基团决定肉桂酰酯取代基结合构象的前提一致。此外,它们表明4-烷基恩格勒菌素结构可能被证明是有用的工具化合物。

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