Secondary metabolite profile of Streptomyces spp. changes when grown with the sub-lethal concentration of silver nanoparticles: possible implication in novel compound discovery

Merajuddin Khan, Hamad Z. Alkhathlan, Syed Farooq Adil, Mohammed Rafi Shaik, Mohammed Rafiq H. Siddiqui, Mujeeb Khan, Shams Tabrez Khan
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Abstract

The decline of new antibiotics and the emergence of multidrug resistance in pathogens necessitates a revisit of strategies used for lead compound discovery. This study proposes to induce the production of bioactive compounds with sub-lethal concentrations of silver nanoparticles (Ag-NPs). A total of Forty-two Actinobacteria isolates from four Saudi soil samples were grown with and without sub-lethal concentration of Ag-NPs (50 µg ml−1). The spent broth grown with Ag-NPs, or without Ag-NPs were screened for antimicrobial activity against four bacteria. Interestingly, out of 42 strains, broths of three strains grown with sub-lethal concentration of Ag-NPs exhibit antimicrobial activity against Staphylococcus aureus and Micrococcus luteus. Among these, two strains S4-4 and S4-21 identified as Streptomyces labedae and Streptomyces tirandamycinicus based on 16S rRNA gene sequence were selected for detailed study. The change in the secondary metabolites profile in the presence of Ag-NPs was evaluated using GC–MS and LC–MS analyses. Butanol extracts of spent broth grown with Ag-NPs exhibit strong antimicrobial activity against M. luteus and S. aureus. While the extracts of the controls with the same concentration of Ag-NPs do not show any activity. GC-analysis revealed a clear change in the secondary metabolite profile when grown with Ag-NPs. Similarly, the LC–MS patterns also differ significantly. Results of this study, strongly suggest that sub-lethal concentrations of Ag-NPs influence the production of secondary metabolites by Streptomyces. Besides, LC–MS results identified possible secondary metabolites, associated with oxidative stress and antimicrobial activities. This strategy can be used to possibly induce cryptic biosynthetic gene clusters for the discovery of new lead compounds.

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用亚致死浓度的纳米银颗粒培养链霉菌时,其次级代谢产物谱的变化:对发现新化合物的可能影响。
随着新抗生素的减少和病原体多重耐药性的出现,有必要重新审视用于发现先导化合物的策略。本研究提出用亚致死浓度的银纳米粒子(Ag-NPs)诱导生物活性化合物的产生。从四种沙特土壤样本中共分离出 42 种放线菌,分别在添加和不添加亚致死浓度 Ag-NPs (50 µg ml-1)的情况下进行培养。使用 Ag-NPs 或不使用 Ag-NPs 培养的废肉汤对四种细菌进行了抗菌活性筛选。有趣的是,在 42 株菌株中,有 3 株菌株在亚致死浓度的 Ag-NPs 培养液中对金黄色葡萄球菌和黄绿微球菌具有抗菌活性。其中,根据 16S rRNA 基因序列鉴定为 Labedae 链霉菌和 Tirandamycinicus 链霉菌的两株菌株 S4-4 和 S4-21 被选中进行详细研究。使用 GC-MS 和 LC-MS 分析评估了 Ag-NPs 存在时次生代谢物谱的变化。使用 Ag-NPs 生长的废肉汤的丁醇提取物对黄体霉菌和金黄色葡萄球菌具有很强的抗菌活性。而相同浓度 Ag-NPs 的对照组提取物则没有显示出任何活性。气相色谱-质谱分析表明,使用 Ag-NPs 生长时,次生代谢物谱发生了明显变化。同样,LC-MS 图谱也有明显差异。这项研究的结果强烈表明,亚致死浓度的 Ag-NPs 会影响链霉菌次生代谢物的产生。此外,LC-MS 结果还发现了可能与氧化应激和抗菌活性有关的次生代谢物。这种策略可用于诱导隐性生物合成基因簇,以发现新的先导化合物。
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来源期刊
CiteScore
5.60
自引率
11.50%
发文量
104
审稿时长
3 months
期刊介绍: Antonie van Leeuwenhoek publishes papers on fundamental and applied aspects of microbiology. Topics of particular interest include: taxonomy, structure & development; biochemistry & molecular biology; physiology & metabolic studies; genetics; ecological studies; especially molecular ecology; marine microbiology; medical microbiology; molecular biological aspects of microbial pathogenesis and bioinformatics.
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