瑞莫拉宁的三种关键类似物的全合成与研究：一种具有强大抗菌活性的脂糖缩肽

Total synthesis and examination of three key analogues of ramoplanin: a lipoglycodepsipeptide with potent antibiotic activity.

作者信息

Rew Yosup, Shin Dongwoo, Hwang Inkyu, Boger Dale L

机构信息

Department of Chemistry and the Skaggs Institute for Chemical Biology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, California 92037, USA.

出版信息

J Am Chem Soc. 2004 Feb 4;126(4):1041-3. doi: 10.1021/ja039671y.

DOI:10.1021/ja039671y

PMID:14746470

Abstract

The total synthesis and evaluation of three key ramoplanin aglycon analogues are detailed. The first (5a) represents replacement of the labile depsipeptide ester with a stable amide (HAsn2 --> Dap2) with removal of the HAsn pendant carboxamide, and it was found to be slightly more potent than the natural aglycon in antimicrobial assays providing a new lead structure with an improved profile and a more stable and accessible macrocyclic template on which to conduct structure-function studies. In contrast, a second amide analogue 5b which contains a single additional methylene relative to 5a (HAsn2 --> Dab2) was found to be inactive in antimicrobial assays (>100-fold loss in activity). The third key analogue 5c in which the Asn1 lipid side chain was replaced with an acetyl group revealed that it contributes significantly to the antimicrobial activity (16-fold) of the ramoplanins, but is not essential.

摘要

详细介绍了三种关键的瑞莫拉宁苷元类似物的全合成及评估。第一种（5a）是用稳定的酰胺（HAsn2→Dap2）取代不稳定的缩肽酯，并去除HAsn侧链羧酰胺，发现在抗菌试验中其活性略高于天然苷元，提供了一种具有改进特性的新先导结构以及一个更稳定且易于获取的大环模板，可用于进行结构 - 功能研究。相比之下，第二种酰胺类似物5b相对于5a含有一个额外的亚甲基（HAsn2→Dab2），发现在抗菌试验中无活性（活性损失>100倍）。第三种关键类似物5c中Asn1的脂质侧链被乙酰基取代，结果表明它对瑞莫拉宁的抗菌活性有显著贡献（16倍），但并非必不可少。

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瑞莫拉宁的三种关键类似物的全合成与研究：一种具有强大抗菌活性的脂糖缩肽

Total synthesis and examination of three key analogues of ramoplanin: a lipoglycodepsipeptide with potent antibiotic activity.

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