双黄酮的保护作用。抗溴化乙锭致金黄色葡萄球菌致死率

Compounds Pub Date : 2023-02-10 DOI:10.3390/compounds3010016
Andressa Sabrina Guimarães Moura, Júlia de Andrade Ferreira Barreto, A. K. F. E. Silva, Maria Luísa Lima Barreto do Nascimento, Emanuelly E.A. Pinheiro, A. K. S. Moura, J. M. Sousa, José de Souza Lima-Neto, A. M. Citó, H. Coutinho, H. M. Barreto
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引用次数: 0

摘要

巴西植物区系高度多样化,在植物源性新药研究方面具有巨大潜力。柏拉图的标志。是一种来自亚马逊地区的果树,已经证明了几种潜在的药理应用。本研究旨在研究从鸢尾花中提取的双黄酮、黄酮和摩乐黄酮复合物对溴化乙锭对外排泵过量菌株金黄色葡萄球菌的杀伤作用。进行微量稀释试验以确定在不含或存在双黄酮的情况下溴化乙锭的最低抑菌浓度。在培养基中添加双黄酮可提高溴化乙锭对所有菌株的最低抑制浓度,表明双黄酮可保护细菌细胞免受该杀菌剂引起的细胞损伤。对比分析各分离化合物及其伴生化合物的红外吸收光谱,证实了配合反应,表明溴化乙啶伯胺的H2N-基团与双黄酮羰基之间存在优先相互作用,形成亚胺- c =NH。这种络合作用可以减少游离溴化乙锭分子可用于DNA嵌入的数量,从而产生观察到的保护作用。这些结果提示了双黄酮作为溴化乙锭诱导细胞损伤的保护剂的可能技术应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Protective Effect of Biflavones from Platonia insignis Mart. against Ethidium Bromide-Induced Lethality in Staphylococcus aureus
Brazilian flora are highly diverse and have great potential for research into new medicines of plant origin. Platonia insignis Mart. is a fruit tree from the Amazon region with several potential pharmacological applications already demonstrated. The present study aimed to investigate the protective effect of a mixture of the biflavones volkensiflavone and moreloflavone obtained from P. insignis flowers against the lethality induced by ethidium bromide in efflux pump overproducer strains of Staphylococcus aureus. Microdilution tests were performed to determine the minimum inhibitory concentration of ethidium bromide in the absence or presence of biflavones. The addition of biflavones to the growth medium increased the minimum inhibitory concentration of ethidium bromide against all strains tested, indicating that biflavones protected the bacterial cells against cell damage induced by this biocide agent. Comparative analysis of the infrared absorption spectra of each isolated compound, as well as of the associated compounds, demonstrated the complexation reaction, indicating that there was a preferential interaction between the H2N- groups of primary amines of ethidium bromide with the carbonyls of biflavones that formed imines -C=NH. Such complexation could reduce the amount of free ethidium bromide molecules available for DNA intercalation, resulting in the observed protective effect. These results suggest a possible technological application of the biflavones from P. insignis as protective agents against cell damage induced by ethidium bromide.
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CiteScore
2.30
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