龙脑香(Dracaenaceae)叶萃取物的抗异香素特性和作用模式

H. B. L. Feudjio, Michel Noubom, M. Goka, J. Djenguemtar, E. Konack, G. T. Kamsu, J. B. Sokoudjou, N. Kodjio, L. N. Famen, D. Gatsing
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Methods: To do this, the in vitro antisalmonellal activity of aqueous and hydroethanolics leaf extracts of Dracaena deisteliana was evaluated by the liquid microdilution method. The modes of action of the 55% hydroethanolic leaf extract of Dracaena deisteliana was also done in order to verify the sites of action of this extract. Results: The in vitro antisalmonellal activity revealed that the decocted and 55% hydroethanolic leaf extract of Dracaena deisteliana presented MICs of 256 and 128 μg/ml respectively on the Salmonella Typhi (ATCC6539) strain on which they were tested. Phytochemical analysis revealed the presence of steroids, terpenoids, tannins, phenols, and saponins in aqueous and hydroethanolics leaf extracts of Dracaena deisteliana. 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引用次数: 0

摘要

背景:在喀麦隆,伤寒是继疟疾之后,卫生工作者面临最多的疾病,因为其发病率在不断上升。随着时间的推移,沙门氏菌对市场上的抗生素产生了多种抗药性,因此,必须使用从药用植物中提取的、由多种次生代谢物组成的药物,因为这些次生代谢物是其良好疗效的源泉。 研究目的确定龙脑香叶的水提取物和水乙醇提取物是否具有体外抗沙门氏菌活性,并确定最有效提取物对伤寒沙门氏菌菌株(ATCC6539)的作用部位。 方法:为此,采用液体微量稀释法评估了龙脑香叶水提取物和水乙醇提取物的体外抗沙门氏菌活性。此外,还研究了 55% 水乙醇叶提取物的作用模式,以验证这种提取物的作用部位。 研究结果体外抗沙门氏菌活性表明,Dracaena deisteliana 的煎煮叶提取物和 55% 水乙醇叶提取物对伤寒沙门氏菌(ATCC6539)菌株的 MIC 分别为 256 和 128 μg/ml。植物化学分析显示,Dracaena deisteliana 的水提取物和水乙醇叶提取物中含有类固醇、萜类、单宁、酚和皂苷。研究了 55% 的龙脑香叶水乙醇提取物抑制沙门氏菌生长的模式,包括细菌衰亡、细菌溶解、生物膜抑制、ATPASES-H+ 质子泵抑制、蛋白质合成和生物膜形成。对伤寒沙门氏菌菌株(ATCC6539)的生长动力学研究表明,在所有浓度(2MIC、MIC 和 1/2MIC )下,55% 的龙脑香叶水乙醇提取物都能诱导抑制细菌的 ATPASES-H+ 质子泵。这种提取物还能抑制生物膜的形成,抑制率从 28% 到 72%,并能阻止伤寒沙门氏菌菌株(ATCC6539)蛋白质的合成。 结论龙脑香叶的水提取物和水乙醇提取物具有体外抗沙门氏菌活性。
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Antisamonellal Property and Modes of Action of Leaf Extracts of Dracaena deisteliana Engl. (Dracaenaceae)
Background: In Cameroon, typhoid fever is after malaria, the disease with which health workers are most confronted because its incidence is constantly increasing. Salmonella has become over time multiresistant to antibiotics available on the market, for this reason, it becomes imperative to use drugs made from extracts of parts of medicinal plants consisting of several secondary metabolites at the origin of their good efficacity. Objective: Determine whether the aqueous and hydroethanolics leaf extract of Dracaena deisteliana have in vitro antisalmonellal activities, and to determine the site of action of the most active extract on Salmonella Typhi strain (ATCC6539). Methods: To do this, the in vitro antisalmonellal activity of aqueous and hydroethanolics leaf extracts of Dracaena deisteliana was evaluated by the liquid microdilution method. The modes of action of the 55% hydroethanolic leaf extract of Dracaena deisteliana was also done in order to verify the sites of action of this extract. Results: The in vitro antisalmonellal activity revealed that the decocted and 55% hydroethanolic leaf extract of Dracaena deisteliana presented MICs of 256 and 128 μg/ml respectively on the Salmonella Typhi (ATCC6539) strain on which they were tested. Phytochemical analysis revealed the presence of steroids, terpenoids, tannins, phenols, and saponins in aqueous and hydroethanolics leaf extracts of Dracaena deisteliana. The modes by which the 55% hydroethanolic leaf extract of Dracaena deisteliana inhibits the growth of Salmonella, were studied by following bacterial decay, bacteriolysis, inhibition of biofilms, inhibition of ATPASES-H+ proton pumps, protein synthesis and biofilm formation. The study of growth kinetics on the Salmonella Typhi strain (ATCC6539) showed that at all concentrations (2MIC, MIC and 1/2MIC), the 55% hydroethanolic leaf extract of Dracaena deisteliana induced the inhibition of bacterial ATPASES-H+ proton pumps. This extract also inhibits the formation of biofilms from 28 to 72% and prevents the synthesis of Salmonella Typhi strain (ATCC6539) proteins. Conclusion: Aqueous and Hydroethanolics leaf extracts of Dracaena deisteliana possess in vitro antisalmonellal activities.
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