嗜线虫线虫抗菌活性及吲哚类抗生素的生物合成。

L Sundar, F N Chang
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引用次数: 79

摘要

我们研究了由线虫相关的昆虫致病细菌嗜线虫Xenorhabdus nematophilus产生的吲哚衍生物抗生素的作用机制和生理学。抗生素浓度在生长稳定期后期达到最大值,添加色氨酸可显著提高抗生素产量。抗生素的生物合成显然涉及色氨酸侧链羧基(C-1)碳的去除。另一方面,色氨酸的C-3亚甲基碳被保留了下来。纯化的吲哚抗生素在低至中等浓度下对革兰氏阳性和革兰氏阴性细菌都有效,导致对RNA合成的严重抑制,同时对蛋白质合成的影响较轻。在relA位点不同的一对大肠杆菌菌株被用来证明总RNA合成的迅速减少与抗生素诱导的易感细菌中调节核苷酸ppGpp的积累有关。大肠杆菌relA突变体在抗生素治疗后没有表现出ppGpp的明显增加,也没有显示出生长或RNA合成的减少。使用这种抗生素,还观察到ppGpp可能被用作细菌(如恶臭假单胞菌)的代谢调节剂,而以前没有报道将ppGpp用作调节分子。我们认为,吲哚衍生物抗生素通过极大地促进ppGpp的合成,从而快速抑制RNA的合成,从而对易感菌施加生长抑制控制。
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Antimicrobial activity and biosynthesis of indole antibiotics produced by Xenorhabdus nematophilus.

We have investigated the mechanism of action and physiology of production of the indole derivative antibiotics produced by the nematode-associated, entomopathogenic bacterium Xenorhabdus nematophilus. Maximum antibiotic concentration was reached during the late stationary phase of growth, and the antibiotic yield was appreciably enhanced by supplementation with tryptophan. Antibiotic biosynthesis apparently involved the removal of the side-chain carboxyl (C-1) carbon of tryptophan. The C-3 methylene carbon of tryptophan, on the other hand, was retained. The purified indole antibiotic was effective against both Gram-positive and Gram-negative bacteria at low to moderate concentrations causing a severe inhibition of RNA synthesis, accompanied by a less severe effect on protein synthesis. An isogenic pair of Escherichia coli strains differing at the relA locus was used to demonstrate that the swift reduction in total RNA synthesis is related to an antibiotic-induced accumulation of the regulatory nucleotide, ppGpp, in susceptible bacteria. The E. coli relA mutant, which does not exhibit any discernible increase in ppGpp upon antibiotic treatment, showed no decrease in growth or RNA synthesis. Using this antibiotic, it was also observed that ppGpp may be employed as a metabolic regulator in bacteria such as Pseudomonas putida, which have not previously been reported to employ ppGpp as a regulatory molecule. We propose that the indole derivative antibiotic exerts growth inhibitory control in susceptible bacteria by greatly enhancing synthesis of ppGpp, resulting in a rapid inhibition of RNA synthesis.

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