Essential Oil Components and Antitrichomonal Effects of Piper nigrum L.

Q4 Medicine

Journal of Kerman University of Medical Sciences Pub Date : 2023-08-20 DOI:10.34172/jkmu.2023.34

Ali Jamshidi-Zad, D. Dastan, M. Fallah, F. Azizi-Jalilian, M. Matini

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Abstract

Background: Trichomoniasis, caused by Trichomonas vaginalis protozoan, is the most common nonviral sexually transmitted infection (STI) worldwide. Although metronidazole and tinidazole are the only approved drugs for treatment, drug-resistant cases of infection are on the rise. The aim of this study was the evaluation of antitrichomonal potential of Piper nigrum and limonene. The phytochemical profile of P. nigrum oil was also investigated. Methods: The parasites were treated in vitro with essential oil and different extracts of P. nigrum seed and limonene using microtiter plate method. The oil of P. nigrum was also analyzed by gas chromatography-mass spectrometry and gas chromatography-flame ionization detector. Furthermore, the cytotoxicity assay of P. nigrum oil and limonene were screened on Vero cell line by MTT method. Results: The tested P. nigrum fractions were able to kill 100% of Trichomonas trophozoites at minimum lethal concentration (MLC) and reduce the trophozoite viability at sub-MLC and lower concentrations. After 48 hours exposure, the most potent fraction was the n-hexane extract with MLC of 78 µg/mL followed by the essential oil and methanol extract with MLC of 156 µg/mL, limonene (MLC=1250 µg/mL), and then, aqueous extract with MLC value of 25 mg/mL. Moreover, according to cytotoxicity assay, P. nigrum oil was less toxic to Vero cell than limonene, with a selectivity index (SI) of 13.2 and 2.04, respectively. Conclusion: This study clearly demonstrated the trichomonacidal potential of P. nigrum. Thus, P. nigrum fractions can be considered promising antiprotozoal agents and the basis for further development to discover new phytochemicals compounds.

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胡椒精油成分及抗滴虫作用。

背景:由阴道毛滴虫原虫引起的滴虫病是世界范围内最常见的非病毒性性传播感染。虽然甲硝唑和替硝唑是唯一被批准用于治疗的药物，但耐药感染病例正在上升。本研究的目的是评价胡椒和柠檬烯的抗滴虫潜能。研究了黑荆油的植物化学特征。方法:采用微滴板法，分别用黑马种子精油、不同提取物和柠檬烯对黑马寄生虫进行体外处理。采用气相色谱-质谱联用法和气相色谱-火焰电离检测器对黑油进行了分析。此外，采用MTT法筛选了黑马油和柠檬烯在Vero细胞株上的细胞毒性试验。结果:在最低致死浓度(MLC)下，所测黑单胞菌组分能100%杀灭滋养毛滴虫，在低于MLC及更低浓度下，能降低滋养毛滴虫的存活率。暴露48h后，最有效部位为正己烷提取物(MLC为78µg/mL)，其次为精油和甲醇提取物(MLC为156µg/mL)、柠檬烯(MLC为1250µg/mL)，最后为水提取物(MLC为25 mg/mL)。此外，根据细胞毒性测定，黑荆油对Vero细胞的毒性低于柠檬烯，其选择性指数(SI)分别为13.2和2.04。结论:本研究清楚地证明了黑单胞虫的杀毛虫潜能。因此，黑荆芥可被认为是有前景的抗原虫剂和进一步开发发现新的植物化学化合物的基础。

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来源期刊

Journal of Kerman University of Medical Sciences Medicine-Medicine (all)

CiteScore

0.50

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0.00%

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