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三氯生对酿酒酵母中分枝杆菌 InhA 的抑制作用:酵母线粒体作为一种新的体内抗分枝酸测定平台。

Triclosan inhibition of mycobacterial InhA in Saccharomyces cerevisiae: yeast mitochondria as a novel platform for in vivo antimycolate assays.

机构信息

Section of Physiology of Lipid Metabolism, Institute of Physiology, Center for Physiology, Pathophysiology and Immunology, Medical University of Vienna, Vienna, Austria.

出版信息

Lett Appl Microbiol. 2010 Apr;50(4):399-405. doi: 10.1111/j.1472-765X.2010.02812.x. Epub 2010 Jan 27.

Abstract

AIMS

To demonstrate the suitability of yeast to act as a novel biotechnological platform for conducting in vivo inhibition assays using drugs with low efficacies towards their mycobacterial targets, such as occurs in the situation with triclosan and InhA.

METHODS AND RESULTS

A surrogate yeast host represented by Saccharomyces cerevisiae etr1Delta cells lacking Etr1p, the 2-trans-enoyl-thioester reductase of mitochondrial type 2 fatty acid synthase (FASII), was designed to rely on the Mycobacterium tuberculosis FASII enzyme InhA. Although InhA is 10,000 times less sensitive to the antimicrobial drug triclosan than is bacterial FabI, the respiratory growth of yeast cells depending on InhA was severely affected on glycerol medium containing triclosan.

CONCLUSIONS

The yeast system could detect enzyme inhibition despite the use of a drug with only low efficacy.

SIGNIFICANCE AND IMPACT OF THE STUDY

Tuberculosis affects a third of the human population, and InhA is a major drug target for combating this disease. InhA is inhibited by isoniazid, but triclosan-derived compounds are presently being developed as antimycolates. A demonstration of triclosan inhibition of InhA in yeast represents a meaningful variation in studying this effect in mycobacteria, because it occurred without the potentially confusing aspects of perturbing protein-protein interactions which are presumed vital to mycobacterial FASII, inactivating other important enzymes or eliciting a dedicated transcriptional response in Myco. tuberculosis.

摘要

目的

展示酵母作为一种新型生物技术平台的适用性,用于对其针对分枝杆菌靶标的低功效药物进行体内抑制测定,例如三氯生和 InhA 就是这种情况。

方法和结果

设计了一种以缺乏 Etr1p 的酿酒酵母 etr1Δ细胞为代表的替代酵母宿主,Etr1p 是线粒体 2 型脂肪酸合酶(FASII)的 2-转烯酰硫酯还原酶,该宿主依赖结核分枝杆菌 FASII 酶 InhA。尽管 InhA 对抗菌药物三氯生的敏感性比细菌 FabI 低 10000 倍,但在含有三氯生的甘油培养基中,依赖 InhA 的酵母细胞的呼吸生长受到严重影响。

结论

尽管使用了功效仅低的药物,酵母系统仍能检测到酶抑制。

研究的意义和影响

结核病影响了全球三分之一的人口,而 InhA 是对抗这种疾病的主要药物靶标。InhA 被异烟肼抑制,但目前正在开发源自三氯生的化合物作为抗分枝杆菌酸。在酵母中证明三氯生抑制 InhA 代表了在分枝杆菌中研究这种作用的一种有意义的变化,因为它发生在不干扰假定对分枝杆菌 FASII 至关重要的蛋白质-蛋白质相互作用的潜在混乱方面,不会使其他重要酶失活或在结核分枝杆菌中引发专门的转录反应。

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