九节菖蒲化学成分的研究
摘要
中药九节菖蒲为毛茛科(Ranunculaceae)植物阿尔泰银莲花(Anemone altaica Fisch.exe C.A.Mey.)的干燥根茎,具有芳香开窍、醒神、散湿浊、开胃、解毒杀虫等功效,该药在临床上应用广泛,但由于九节菖蒲与现行药典所载石菖蒲(Acovus gramineus Soland)有某些相似的功能和主治,所以常常被混淆。经前人研究表明该九节菖蒲与石菖蒲在原植物形态、显微组织结构、化学成分等方面存在明显差异,为进一步研究九节菖蒲中有效成分,规范其质量标准,作者对其进行了相关的成分研究。
本人先利用基本化学方法对九节菖蒲中的化学成分进行了系统预实验,对其中可能含有的成分类型进行了检识和分析,之后利用各种色谱手段,包括硅胶柱色谱、制备薄层、反相柱色谱等方法从中药九节菖蒲中分离得到五个化合物,并进一步通过波谱分析(~1H-NMR,~(13)℃-NMR,ESI-MS)和化学方法鉴定了五个化合物的结构,分别是:β-谷甾醇(Ⅰ)、琥珀酸(Ⅱ)、白头翁素(Ⅲ)、琥珀酸酐(Ⅳ)、齐墩果酸(Ⅴ)。其中Ⅳ、Ⅴ为首次从九节菖蒲中分离得到。另外通过对九节菖蒲挥发性成分和脂肪油成分的GC-MS分析鉴定了25种挥发性成分和17种脂肪油成分,其中有23种挥发油和17种脂肪油是在此植物中首次得到。
本项研究为九节菖蒲单体有效成分的药效学研究奠定了化学基础,为提高九节菖蒲质量标准并探讨其药效作用成分奠定了基础,且为从化学成分角度区分九节菖蒲与石菖蒲提供了科学依据。
Jiujie Changpu belongs to genus Ranunculaceae plants of Anemone altaica Fisch.exe C.A.Mey.. It can remove obstruction, soothe the nerves, eliminate dampness, stimulate the appetite, detoxicate and expell worms. Because its function is similar to Acorus gramineus Soland, these two traditional Chinese medicine are always confused. But it is indicated by experiment that they are very different in plant configuration, microstructure and chemical ingredients. In order to searching more constituents and establishing integrated quality standard of Anemone altaica Fisch, the author carried out the following studies.
The author have a preliminary systematic test first by basic chemical methods, detect and analysis all kinds of constituents in Anemone altaica Fisch. Then extract and separate five compounds by the way of chromatography, including silica gel column and preparative thin layer chromatography and reversed-phase column chromatography etc. These five compounds structural elucidation was performed by spectroscopic analyses, primarily NMR, ESI-MS. Five compounds are established asβ-sitosterol (Ⅰ), Succinic acid (Ⅱ), Anemonin (Ⅲ), Succinic anhydride (Ⅳ), Oleanolic acid (Ⅴ). CompoundⅣandⅤare isolated from the plant for the first time. At the same time, we get 25 flavonnoids and 17 fatty acid by GC-MS,of which 23 flavonnoids and 17 fatty acid are isolated from the plant for the first time.
The study lays chemical foundation for the medical curative effect research of the monomeric constituent of Anemone altaica Fisch.exe C.A.Mey., the study establish the foundation for the quality standard improvement and the medical curative effect constituents exploration of Anemone altaica Fisch.exe C.A.Mey.. In addition, the study gives out the scientific basis to differentiating Anemone altaica Fisch and Acorus gramineus Soland.
本人先利用基本化学方法对九节菖蒲中的化学成分进行了系统预实验,对其中可能含有的成分类型进行了检识和分析,之后利用各种色谱手段,包括硅胶柱色谱、制备薄层、反相柱色谱等方法从中药九节菖蒲中分离得到五个化合物,并进一步通过波谱分析(~1H-NMR,~(13)℃-NMR,ESI-MS)和化学方法鉴定了五个化合物的结构,分别是:β-谷甾醇(Ⅰ)、琥珀酸(Ⅱ)、白头翁素(Ⅲ)、琥珀酸酐(Ⅳ)、齐墩果酸(Ⅴ)。其中Ⅳ、Ⅴ为首次从九节菖蒲中分离得到。另外通过对九节菖蒲挥发性成分和脂肪油成分的GC-MS分析鉴定了25种挥发性成分和17种脂肪油成分,其中有23种挥发油和17种脂肪油是在此植物中首次得到。
本项研究为九节菖蒲单体有效成分的药效学研究奠定了化学基础,为提高九节菖蒲质量标准并探讨其药效作用成分奠定了基础,且为从化学成分角度区分九节菖蒲与石菖蒲提供了科学依据。
Jiujie Changpu belongs to genus Ranunculaceae plants of Anemone altaica Fisch.exe C.A.Mey.. It can remove obstruction, soothe the nerves, eliminate dampness, stimulate the appetite, detoxicate and expell worms. Because its function is similar to Acorus gramineus Soland, these two traditional Chinese medicine are always confused. But it is indicated by experiment that they are very different in plant configuration, microstructure and chemical ingredients. In order to searching more constituents and establishing integrated quality standard of Anemone altaica Fisch, the author carried out the following studies.
The author have a preliminary systematic test first by basic chemical methods, detect and analysis all kinds of constituents in Anemone altaica Fisch. Then extract and separate five compounds by the way of chromatography, including silica gel column and preparative thin layer chromatography and reversed-phase column chromatography etc. These five compounds structural elucidation was performed by spectroscopic analyses, primarily NMR, ESI-MS. Five compounds are established asβ-sitosterol (Ⅰ), Succinic acid (Ⅱ), Anemonin (Ⅲ), Succinic anhydride (Ⅳ), Oleanolic acid (Ⅴ). CompoundⅣandⅤare isolated from the plant for the first time. At the same time, we get 25 flavonnoids and 17 fatty acid by GC-MS,of which 23 flavonnoids and 17 fatty acid are isolated from the plant for the first time.
The study lays chemical foundation for the medical curative effect research of the monomeric constituent of Anemone altaica Fisch.exe C.A.Mey., the study establish the foundation for the quality standard improvement and the medical curative effect constituents exploration of Anemone altaica Fisch.exe C.A.Mey.. In addition, the study gives out the scientific basis to differentiating Anemone altaica Fisch and Acorus gramineus Soland.
引文
[1] 中国科学院植物研究所.中国高等植物图鉴[M].科学出版社,1972.
[2] 陈仁山.药物出产辨[M].台北:新医药出版社,1930.
[3] 陈仁山.中国药物标本图影[M].上海:世界书局,1935.
[4] 卫生部药政局中国药品生物制品检定所.中药材手册[M].北京:人民卫生出版社,1990.
[5] 江苏新医学院.中药大辞典[M].上海:上海人民出版社,1977.
[6] 中国医学科学院药物研究所.中药志[M].北京:人民卫生出版社,1980.
[7] 徐国钧.常用中药材品种整理和质量研究[M].福建科学技术出版社,1994.
[8] 王旭,张君.中药九节菖蒲的品种考证[J].基层中药杂志,2001,15(2):39~40
[9] 李振宁,王建英,邓世雄.九节菖蒲不可代替石菖蒲[J].包头医学,1997,21(4):171
[10] 赵汝民.石菖蒲与九节菖蒲不应混用[J].河南中医药学刊,2001,16(1):21
[11] 中华人民共和国卫生部药典委员会.中国药典[M].北京:化学工业出版社,2005.
[12] 肖红兵,庞鹏,吴祥.石菖蒲九节菖蒲显微鉴别[J].时珍国医国药,2001,12(1):60
[13] 刘传芳,张百锋.石菖蒲及其混淆品九节菖蒲鉴别比较[J].时珍国医国药,1998,9(6):553
[14] 李国光,李昌苓,罗尚凤,等.九节菖蒲化学成分的研究(第一报)[J].陕西新医药,1984,13(7):57~59
[15] 巨勇,贾忠建,朱子清.九节菖蒲化学成分研究[J].中草药,1986,17(9):4~5
[16] 巨勇,贾忠建,朱子清.九节莒蒲化学成分研究(Ⅱ)[J].高等学校化学学报,1987,8(2):149~150
[17] 邓鸿,刘英姬,刘大有.九节菖蒲中氨基酸及微量元素的分析测定[J].中成药研究,1988,(5):33~34
[18] Zou ZhongJie, Dong YueSheng, Yang JunShan. Chemical Constituents of the Roots of Anemone altaica Fisch. ex C. A. Mey. Journal of Integrative Plant Biology 2005,47(9):1145-1147
[19] 林双峰,魏刚.不同产地九节菖蒲挥发油成分分析[J],中药材,2002,25(4):266~267
[20] 冯学锋.外菖蒲的挥发油成分分析[J].中国中药杂志,1998,23(12):739~740
[21] 徐敬东,秦晓民,鲁彦,等.九节菖蒲对大鼠胃电活动的抑制作用及机制探讨[J].时珍国医国药,2002,13(7):394~395
[22] 李志强,徐敬东.九节菖蒲对大鼠小肠电活动的影响及机制探讨[J].中华实用中西医杂志,2003,3(16):126~127
[23] 乔立新.水菖蒲、九节菖蒲在临床上能否与石菖蒲互用[J].中医药学报,1991,(5):24~25
[24] 周杰,国兴明,徐裕彬,等.贵州中药雪里见化学成分分离和纯化的初步研究[J].山地农业生物学报,2005,24(3):265-267
[25] 周法兴,梁培瑜.广西蛇药中藤桔子及铁扫帚的酸性成分分离.中草药,1980,11(11):523
[26] 国家医药管理局中草药情报中心站.植物药有效成分手册.北京:人民卫生出版社,1986.55,858,940.
[27] Joaquim B, Josep F, Carlos J, etal. Studies on structurally simple burenolides. V. Reactions of protoanemonin with piperidine and c-nucleophiles A general approach to its behaviour as electrophilic acceptor[J]. Tetrahedron, 1985, 41(23): 5577.
[28] MA Bingji,Liu Jikai. Chemical study on Russula densifolia. Natural Product research and development. 2005, Vol(17),No 1.
[29] 殷勇冠.地乌的化学成分和钩藤的指纹图谱研究 湖北中医学院硕士学位论文
[2] 陈仁山.药物出产辨[M].台北:新医药出版社,1930.
[3] 陈仁山.中国药物标本图影[M].上海:世界书局,1935.
[4] 卫生部药政局中国药品生物制品检定所.中药材手册[M].北京:人民卫生出版社,1990.
[5] 江苏新医学院.中药大辞典[M].上海:上海人民出版社,1977.
[6] 中国医学科学院药物研究所.中药志[M].北京:人民卫生出版社,1980.
[7] 徐国钧.常用中药材品种整理和质量研究[M].福建科学技术出版社,1994.
[8] 王旭,张君.中药九节菖蒲的品种考证[J].基层中药杂志,2001,15(2):39~40
[9] 李振宁,王建英,邓世雄.九节菖蒲不可代替石菖蒲[J].包头医学,1997,21(4):171
[10] 赵汝民.石菖蒲与九节菖蒲不应混用[J].河南中医药学刊,2001,16(1):21
[11] 中华人民共和国卫生部药典委员会.中国药典[M].北京:化学工业出版社,2005.
[12] 肖红兵,庞鹏,吴祥.石菖蒲九节菖蒲显微鉴别[J].时珍国医国药,2001,12(1):60
[13] 刘传芳,张百锋.石菖蒲及其混淆品九节菖蒲鉴别比较[J].时珍国医国药,1998,9(6):553
[14] 李国光,李昌苓,罗尚凤,等.九节菖蒲化学成分的研究(第一报)[J].陕西新医药,1984,13(7):57~59
[15] 巨勇,贾忠建,朱子清.九节菖蒲化学成分研究[J].中草药,1986,17(9):4~5
[16] 巨勇,贾忠建,朱子清.九节莒蒲化学成分研究(Ⅱ)[J].高等学校化学学报,1987,8(2):149~150
[17] 邓鸿,刘英姬,刘大有.九节菖蒲中氨基酸及微量元素的分析测定[J].中成药研究,1988,(5):33~34
[18] Zou ZhongJie, Dong YueSheng, Yang JunShan. Chemical Constituents of the Roots of Anemone altaica Fisch. ex C. A. Mey. Journal of Integrative Plant Biology 2005,47(9):1145-1147
[19] 林双峰,魏刚.不同产地九节菖蒲挥发油成分分析[J],中药材,2002,25(4):266~267
[20] 冯学锋.外菖蒲的挥发油成分分析[J].中国中药杂志,1998,23(12):739~740
[21] 徐敬东,秦晓民,鲁彦,等.九节菖蒲对大鼠胃电活动的抑制作用及机制探讨[J].时珍国医国药,2002,13(7):394~395
[22] 李志强,徐敬东.九节菖蒲对大鼠小肠电活动的影响及机制探讨[J].中华实用中西医杂志,2003,3(16):126~127
[23] 乔立新.水菖蒲、九节菖蒲在临床上能否与石菖蒲互用[J].中医药学报,1991,(5):24~25
[24] 周杰,国兴明,徐裕彬,等.贵州中药雪里见化学成分分离和纯化的初步研究[J].山地农业生物学报,2005,24(3):265-267
[25] 周法兴,梁培瑜.广西蛇药中藤桔子及铁扫帚的酸性成分分离.中草药,1980,11(11):523
[26] 国家医药管理局中草药情报中心站.植物药有效成分手册.北京:人民卫生出版社,1986.55,858,940.
[27] Joaquim B, Josep F, Carlos J, etal. Studies on structurally simple burenolides. V. Reactions of protoanemonin with piperidine and c-nucleophiles A general approach to its behaviour as electrophilic acceptor[J]. Tetrahedron, 1985, 41(23): 5577.
[28] MA Bingji,Liu Jikai. Chemical study on Russula densifolia. Natural Product research and development. 2005, Vol(17),No 1.
[29] 殷勇冠.地乌的化学成分和钩藤的指纹图谱研究 湖北中医学院硕士学位论文