从海洋海绵来源的 Trichoderma sp. 中分离出的抗休眠分枝杆菌的氨基脂肽类抗生素 trichoderin A 的作用机制。

Action-mechanism of trichoderin A, an anti-dormant mycobacterial aminolipopeptide from marine sponge-derived Trichoderma sp.

机构信息

Graduate School of Pharmaceutical Sciences, Osaka University, Suita, Osaka 565–0871, Japan.

出版信息

Biol Pharm Bull. 2011;34(8):1287-90. doi: 10.1248/bpb.34.1287.

DOI:10.1248/bpb.34.1287

Abstract

In the course of our search for anti-dormant mycobacterial substances from marine organisms, we previously isolated three new aminolipopeptides, named trichoderins A, A1 and B, from the culture of the marine sponge-derived fungus of Trichoderma sp. and determined their chemical structures. To identify the gene that could confer a resistance to trichoderin A, we prepared transformants of Mycobacterium (M.) smegmatis, which were transformed with the genomic DNA library of M. bovis BCG constructed in the multi-copy shuttle cosmid pYUB145. Then, the transformant of M. smegmatis, which over-expressed a part of genes that coded mycobacterial ATP synthase, was found to exhibit a resistance to trichoderin A. In addition, trichoderin A reduced ATP contents in M. bovis BCG. These findings elucidated that the anti-mycobacterial activity of trichoderins comes from the inhibition of ATP synthesis.

摘要

在从海洋生物中寻找抗休眠分枝杆菌物质的过程中，我们先前从海洋海绵来源的真菌 Trichoderma sp. 的培养物中分离出三种新的氨基脂肽，命名为 trichoderins A、A1 和 B，并确定了它们的化学结构。为了鉴定能够赋予 trichoderin A 抗性的基因，我们制备了分枝杆菌（M.）耻垢分枝杆菌的转化体，该转化体是用构建在多拷贝穿梭质粒细胞 pYUB145 中的牛分枝杆菌基因组 DNA 文库转化的。然后，发现过表达编码分枝杆菌 ATP 合酶部分基因的 M. smegmatis 转化体对 trichoderin A 表现出抗性。此外，trichoderin A 降低了 BCG 中的 ATP 含量。这些发现阐明了 trichoderins 的抗分枝杆菌活性来自于对 ATP 合成的抑制。

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从海洋海绵来源的 Trichoderma sp. 中分离出的抗休眠分枝杆菌的氨基脂肽类抗生素 trichoderin A 的作用机制。

Action-mechanism of trichoderin A, an anti-dormant mycobacterial aminolipopeptide from marine sponge-derived Trichoderma sp.

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