Streptomyces phaeochromogenes BV-204, K-1115A Anthraquinone-Producing Strain: A New Protein Biosynthesis Inhibitor.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
A R Belik, Yu V Zakalyukina, V A Alferova, Y A Buyuklyan, I A Osterman, M V Biryukov
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Abstract

In the search for new antibiotics, it is a common occurrence that already known molecules are "rediscovered" while new promising ones remain unnoticed. A possible solution to this problem may be the so-called "target-oriented" search, using special reporter microorganisms that combine increased antibiotic sensitivity with the ability to identify a molecule's damaging effect. The use of such test organisms makes it possible to discover new promising properties even in known metabolites. In this study, we used a high-throughput screening method based on the pDualrep2 dual reporter system, which combines high sensitivity through the use of modified strains of test organisms and makes it possible to easily and accurately identify the interaction mechanisms of a substance and a bacterial cell at the initial stages of screening. This reporter system is unknown in Russia and is significantly superior to its global analogues. In the system, translation inhibition induces the expression of the fluorescent protein Katushka2s, while DNA damage is induced by TurboRFP. Using pDualrep2, we have isolated and described BV-204, an S. phaeochromogenes strain producing K-1115A, the biologically active substance that we have previously described. In our study, K-1115A for the first time has demonstrated antibiotic activity and an ability to inhibit bacterial translation, which was confirmed in vitro in a cell-free translation system for FLuc mRNA. K-1115A's antibacterial activity was tested and confirmed for S. aureus (MRSA) and B. subtilis, its cytotoxicity measured against that for the HEK293 cell line. Its therapeutic index amounted to 2 and 8, respectively. The obtained results open up prospects for further study of K-1115A; so, this can be regarded as the basis for the production of semi-synthetic derivatives with improved therapeutic properties to be manufactured in dosage forms.

Streptomyces phaeochromogenes BV-204, K-1115A Anthraquinone-Producing Strain:一种新的蛋白质合成抑制剂。
在寻找新抗生素的过程中,经常会出现这样的情况:已知的分子被 "重新发现",而新的有前途的分子却仍未被注意到。解决这一问题的可能办法是所谓的 "目标导向 "搜索,即使用特殊的报告微生物,这种微生物既能提高对抗生素的敏感性,又能识别分子的破坏作用。使用这种测试微生物可以发现已知代谢物的新特性。在本研究中,我们使用了基于 pDualrep2 双报告系统的高通量筛选方法,该方法通过使用改良的试验生物菌株兼具高灵敏度,并能在筛选的初始阶段轻松、准确地确定物质与细菌细胞的相互作用机制。这种报告系统在俄罗斯尚属未知,其性能明显优于全球同类产品。在该系统中,翻译抑制诱导荧光蛋白 Katushka2s 的表达,而 DNA 损伤则由 TurboRFP 诱导。利用 pDualrep2,我们分离并描述了 BV-204,这是一株能产生 K-1115A 的 S. phaeochromogenes 菌株,K-1115A 是我们之前描述过的具有生物活性的物质。在我们的研究中,K-1115A 首次显示出抗生素活性和抑制细菌翻译的能力,这在体外无细胞翻译系统中的 FLuc mRNA 中得到了证实。K-1115A 的抗菌活性在金黄色葡萄球菌(MRSA)和枯草杆菌中得到了测试和证实,其细胞毒性与 HEK293 细胞系的细胞毒性进行了比较。其治疗指数分别为 2 和 8。所获得的结果为进一步研究 K-1115A 开辟了前景;因此,可将其视为生产具有更好治疗特性的半合成衍生物的基础,并将其制成剂型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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