技术方法

淫羊藿生物碱的超声波-微波协同提取及其 对HeLa细胞的抑制作用

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  • 1陕西师范大学食品工程与营养科学学院, 西北濒危药材资源开发国家工程实验室, 中俄食品与健康科学国际联合研究中心, 西安 710119
    2西安交通大学医学部, 卫生部法医学重点实验室, 西安 710061

收稿日期: 2017-05-23

  录用日期: 2017-08-30

  网络出版日期: 2018-09-11

基金资助

中央高校基本科研业务费专项资金(No.GK2016CSZ008, No.GK201703076)、陕西省科技合作项目(No.2014SJ-01, No.2014SJ- 08)和陕西省科学技术研究发展计划(No.2016SF-350)

Ultrasound-microwave-assisted Extraction of Alkaloids from Epimedium brevicornum and Their Inhibitory Effect on HeLa Cells

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  • 1International Joint Research Center of Shaanxi Province for Food and Health Sciences, National Engineering Laboratory for Resources Development of Endangered Crude Drugs in Northwest China, College of Food Engineering and Nutritional Science, Shaanxi Normal University, Xi’an 710119, China;
    2Key Laboratory of Ministry of Health for Forensic Sciences, School of Medicine, Xi'an Jiaotong University, Xi’an 710061, China;

Received date: 2017-05-23

  Accepted date: 2017-08-30

  Online published: 2018-09-11

摘要

建立了药用植物心叶淫羊藿(Epimedium brevicornum)生物碱的超声波-微波协同提取工艺, 探讨了提取机理, 分析了生物碱的化学组成及其对人宫颈癌HeLa细胞增殖的抑制作用。采用正交试验法优化得到了淫羊藿生物碱的超声波-微波协同提取工艺: 浸泡时间为40分钟, 超声波-微波协同作用18分钟, 微波功率250 J∙s-1, 液固比为30 mL∙g-1, 乙醇溶液浓度为70%。超声波-微波协同提取法的提取率可达16.146 mg∙g-1, 显著高于超声波提取法、微波提取法和加热提取法。扫描电子显微镜观察结果表明, 超声波-微波协同作用可使淫羊藿叶片样品表面出现大量裂隙。激光粒度分析显示, 超声波-微波协同提取后, 中、低粒度范围的样品量明显增多, 而高粒度范围的样品量明显减少。薄层色谱和高效液相色谱分析结果表明, 淫羊藿生物碱含有木兰花碱, 不含小檗碱或含量很低。淫羊藿生物碱对HeLa细胞的增殖具有明显的抑制作用, 并且呈现出剂量依赖性。研究结果为药用植物淫羊藿资源的开发利用提供理论依据。

本文引用格式

李璐, 安叶娟, 乔春雷, 杨晓华, 张华峰, 薛梦莹 . 淫羊藿生物碱的超声波-微波协同提取及其 对HeLa细胞的抑制作用[J]. 植物学报, 2018 , 53(3) : 341 -352 . DOI: 10.11983/CBB17103

Abstract

A protocol of ultrasound-microwave-assisted extraction was developed to isolate alkaloids from the medicinal plant Epimedium brevicornum, and the extraction mechanism is discussed. The chemical composition of the alkaloid extract was analyzed. The inhibitory effect of E. brevicornum alkaloids on human cervical cancer HeLa cells was investigated. The optimal condition for ultrasound-microwave-assisted extraction of E. brevicornum alkaloids was achieved by using an orthogonal test: steeped time, 40 min; ultrasound-microwave time, 18 min; microwave power, 250 J∙s-1; liquid-to-solid ratio, 30 mL∙g-1; and ethanol concentration, 70%. Extraction yield of alkaloids by ultrasound- microwave-assisted extraction reached 16.146 mg∙g-1, which was significantly higher than that by ultrasound-assisted extraction, microwave-assisted extraction and heating extraction. Scanning electron micrographs showed that the synergism between the ultrasound and microwave resulted in many interstices on the surface of leaf samples of E. brevicornum. Laser diffraction particle sizing analysis revealed that the amount of small and medium particles of leaf samples increased and that of large particles decreased after ultrasound-microwave-assisted extraction. Thin-layer chromatography and high-performance liquid chromatography revealed that the alkaloid extract contained magnoflorine, and berberine was not detectable. E. brevicornum alkaloids exhibited a significant dose-dependent inhibitory activity against human cervical cancer HeLa cells. The present research may be helpful for the exploitation and utilization of Epimedium resources.

参考文献

[1] 陈翠萍, 沙明, 杨松松, 张振学 (1996). 朝鲜淫羊藿中木兰碱的定量研究. 中国中药杂志 21, 681-682, 704.
[2] 高敏, 刘京晶, 孙欣光, 黄文华, 郭宝林, 肖培根 (2011). 中药淫羊藿主要资源种类木兰花碱含量的研究. 中国中药杂志 36, 16-18.
[3] 国家药典委员会 (2015). 中华人民共和国药典(四部). 北京: 中国医药科技出版社. pp. 57-59, 322.
[4] 郝淼, 张华峰, 陈乐, 李璐 (2015). 淫羊藿生物碱定量分析方法的建立与应用. 中国食品学报 15(4), 201-207.
[5] 李璐, 胡欢欢, 张华峰, 杨善慧, 乔春雷, 郝淼 (2016). 淫羊藿生物碱对大肠杆菌的抑菌作用. 陕西师范大学学报(自然科学版) 44(6), 74-79.
[6] 李艳, 杜蕾蕾, 张小灵, 刘川, 赖先荣, 张艺, 范刚 (2014). 藏药小檗花的质量标准研究. 中药与临床 5(6), 6-8, 12.
[7] 刘春明, 刘志强, 窦建鹏, 李丽, 刘淑莹 (2003). 朝鲜淫羊藿中生物碱类新成分的分离提取及结构鉴定. 高等学校化学学报 24, 2215-2217.
[8] 牛丽丽, 张华峰, 陈乐, 杨晓华, 李璐 (2014). 基于近红外漫反射光谱快速测定淫羊藿蛋白质含量. 植物学报 49, 611-617.
[9] 孙晨倩, 陈乐, 张华峰, 杨晓华, 杨娟 (2015). 一种快速定量分析药用植物淫羊藿生物碱的方法. 植物学报 50, 746-753.
[10] 薛耀碧, 张华峰, 杨晓华, 牛丽丽, 张翔, 刘冬, 李建科 (2013). 近红外漫反射光谱法快速测定药用植物淫羊藿总黄酮含量. 植物学报 48, 65-71.
[11] 袁航, 曹树萍, 陈抒云, 过立农, 郑健, 林瑞超 (2014). RRLC-DAD-ESI-MS2分析天平山淫羊藿中的11个化学成分. 药物分析杂志 34, 1156-1160.
[12] 张华峰, 杨晓华, 郭玉蓉, 王瑛 (2009). 药用植物淫羊藿资源可持续利用现状与展望. 植物学报 44, 363-370.
[13] Alonso-Carrillo N, De Los Ángeles Aguilar-Santamaría M, Vernon-Carter EJ, Jiménez-Alvarado R, Cruz-Sosa F, Román-Guerrero A (2017). Extraction of phenolic compounds from Satureja macrostema using microwave- ultrasound assisted and reflux methods and evaluation of their antioxidant activity and cytotoxicity. Ind Crops Prod 103, 213-221.
[14] Blom TJM, Sierra M, Van Vliet TB, Franke-van Dijk MEI, De Koning P, Van Iren F, Verpoorte R, Libbenga KR (1991). Uptake and accumulation of ajmalicine into isolated vacuoles of cultured cells of Catharanthus roseus(L.) G. Don. and its conversion into serpentine. Planta 183, 170-177.
[15] Chen FL, Zhang XL, Zhang Q, Du XQ, Yang L, Zu YG, Yang FJ (2016). Simultaneous synergistic microwave- ultrasonic extraction and hydrolysis for preparation of trans-resveratrol in tree peony seed oil-extracted residues using imidazolium-based ionic liquid. Ind Crops Prod 94, 266-280.
[16] Fidaleo M, Miele NA, Mainardi S, Armini V, Nardi R, Cavella S (2017). Effect of refining degree on particle size, sensory and rheological characteristics of anhydrous paste for ice creams produced in industrial stirred ball mill.LWT- Food Sci Technol 79, 242-250.
[17] Kou Y, Li L, Li H, Tan YH, Li B, Wang K, Du BY (2016). Berberine suppressed epithelial mesenchymal transition through cross-talk regulation of PI3K/AKT and RARα/RARβ in melanoma cells.Biochem Biophys Res Commun 479, 290-296.
[18] Li CM, Wang MH (2014). Potential biological activities of magnoflorine—a compound from Aristolochia debilis Sieb. et Zucc. Korean J Plant Resour 27, 223-228.
[19] Liew SQ, Ngoh GC, Yusoff R, Teoh WH (2016). Sequential ultrasound-microwave assisted acid extraction (UMAE) of pectin from pomelo peels.Int J Biol Macromol 93, 426-435.
[20] Lopez-Acevedo M, Grace L, Teoh D, Whitaker R, Adams DJ, Jia JQ, Nixon AB, Secord AA (2014). Dasatinib (BMS-35482) potentiates the activity of gemcitabine and docetaxel in uterine leiomyosarcoma cell lines.Gynecol Oncol Res Pract 1, 2.
[21] Luque-Garcı?a JL, De Castro MDL (2003). Ultrasound: a powerful tool for leaching.Trends Analyt Chem 22, 41-47.
[22] Nikoloff N, Ponzinibbio MV, Padula G, De Luca JC, Golijow CD, Seoane A (2016). Folic acid enhances the apop- totic and genotoxic activity of carboplatin in HeLa cell line.Toxicol Vitro 37, 142-147.
[23] Patil DM, Akamanchi KG (2017). Ultrasound-assisted rapid extraction and kinetic modelling of influential factors: extraction of camptothecin from Nothapodytes nimmoniana plant. Ultrason Sonochem 37, 582-591.
[24] Shitan N, Yazaki K (2007). Accumulation and membrane transport of plant alkaloids.Curr Pharm Biotechnol 8, 244-252.
[25] Van De Velde ME, Kaspers GL, Abbink FCH, Wilhelm AJ, Ket JCF, Van Den Berg MH (2017). Vincristine-induced peripheral neuropathy in children with cancer: a systematic review.Crit Rev Oncol Hematol 114, 114-130.
[26] Verma P, Mathur AK, Srivastava A, Mathur A (2012). Emerging trends in research on spatial and temporal organization of terpenoid indole alkaloid pathway in Catharanthus roseus: a literature update. Protoplasma 249, 255-268.
[27] Vinatoru M (2001). An overview of the ultrasonically assisted extraction of bioactive principles from herbs.Ultrason So- nochem 8, 303-313.
[28] Zhang HF, Yang XH (2012). Asian medicine: protect rare plants.Nature 482, 35.
[29] Zhang HF, Yang XH, Wang Y (2011). Microwave assisted extraction of secondary metabolites from plants: current status and future directions.Trends Food Sci Technol 22, 672-688.
[30] Zhang HF, Yang XH, Zhao LD, Wang Y (2009). Ultrasonic- assisted extraction of epimedin C from fresh leaves of Epimedium and extraction mechanism. Innov Food Sci Emerg Technol 10, 54-60.
[31] Zhang HF, Zhang X, Yang XH, Qiu NX, Wang Y, Wang ZZ (2013a). Microwave assisted extraction of flavonoids from cultivated Epimedium sagittatum: extraction yield and me- chanism, antioxidant activity and chemical composition. Ind Crops Prod 50, 857-865.
[32] Zhang XD, Oh M, Kim S, Kim J, Kim H, Kim S, Houghton PJ, Whang W (2013b). Epimediphine, a novel alkaloid from Epimedium koreanum inhibits acetylcholinesterase. Nat Prod Res 27, 1067-1074.
[33] Zhou HY, Liu CZ (2006). Rapid determination of solanesol in tobacco by high-performance liquid chromatography with evaporative light scattering detection following microwave-assisted extraction.J Chromatogr B 835, 119-122.
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