{"title":"A review on saponins from medicinal plants: chemistry, isolation, and determination","authors":"A. Ashour, M. Aziz, Al Sadek Gomha Melad","doi":"10.15406/jnmr.2019.07.00199","DOIUrl":null,"url":null,"abstract":"It has been estimated that out of 4,22,000 flowering plants reported from the world, more than 50,000 are used for medicinal purposed.1 Since ancient times, bioactive medicinal plants are used in traditional or folk medicine for the treatment of various diseases. Recently using of phytochemicals is considered to be safer and congenial to the biology of the human body. Medicinal plants are the main source for the preparation and extraction of various modern drugs and pharmaceuticals like saponins. Signs of progress of Phytochemistry have been supported enormously by the rapid development and accumulation of chemical methods of screening of various medicinal plants for particular biochemical usage. The pharmaceutical and medicinal values of the applied medicinal plants are in the bioactive phytochemical constituents that produce specific physiological action on the human body. Some of the most important bioactive constituents are saponins, flavonoids, and alkaloids. Triterpenoid saponins are surface active glycosides of triterpenes that possess a wide, biologically active group of terpenoids and include a large chemical diversity of secondary metabolites with more than different 100 carbon skeletons identified from terrestrial, marine living organisms, and medicinal plants.2 Triterpenoids as a saponin have its own characteristics like cause hemolysis of red blood cells (RBC’s), form persistent froth if shaken with water, and it is soluble in water, alcohol and a mixture of both. These naturally occurring compounds form the backbone of modern medicine or drugs. Saponins are a class of bioorganic compounds found in particular abundance in the plant kingdom. More specifically, they are naturally occurring glycosides described by the soap-like foaming, and consequently, they produce foams when shaken in aqueous solutions. Structurally saponins are having one or more hydrophilic glycoside sugar moieties combined with a lipophilic triterpene molecule.3 Literature shows that saponins exhibit a biological role and medicinal properties such as hemolytic factor4 anti-inflammatory,5 antibacterial,6 antifungal,7 antiviral,8 insecticidal9, anticancer,10 cytotoxic11 and molluscicidal action.12 In addition, saponins are reported to exhibit cholesterol-lowering action in animals and human.13,14 Waheed et al.15 isolated a novel steroidal saponin glycoside from Fagonia indica that can induce cell-selective apoptosis or necrosis in cancer cells. Saponins were considered as a starting precursor for the semi-synthesis of steroidal drugs in the pharmaceutical industry. Sheng et al.16 reviewed the clinical significance of triterpenoid saponins in the prevention and treatment of metabolic and vascular disease. The above medicinal researches and applications reflect the increasing of the interest of saponins as a bionatural source material, but understanding of the relationship between the chemistry of saponins and its medical action is not easy task for many chemists, physicians, and researchers. Due to the complexity, importance, and interferences of the chemistry of saponin, the main purpose of this review article is giving detailed information about (1) the classification of saponin, (2) the chemical structure of various types of saponins and its functional groups, (3) examples for mono and didesmosidic triterpenoid saponins, (4) ordinary and soxhlet extraction methods in the laboratory, and finally (5) qualitative, and quantitative determination of saponins.","PeriodicalId":16465,"journal":{"name":"Journal of Nanomedicine Research","volume":"83 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-02-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"124","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Nanomedicine Research","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15406/jnmr.2019.07.00199","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 124
Abstract
It has been estimated that out of 4,22,000 flowering plants reported from the world, more than 50,000 are used for medicinal purposed.1 Since ancient times, bioactive medicinal plants are used in traditional or folk medicine for the treatment of various diseases. Recently using of phytochemicals is considered to be safer and congenial to the biology of the human body. Medicinal plants are the main source for the preparation and extraction of various modern drugs and pharmaceuticals like saponins. Signs of progress of Phytochemistry have been supported enormously by the rapid development and accumulation of chemical methods of screening of various medicinal plants for particular biochemical usage. The pharmaceutical and medicinal values of the applied medicinal plants are in the bioactive phytochemical constituents that produce specific physiological action on the human body. Some of the most important bioactive constituents are saponins, flavonoids, and alkaloids. Triterpenoid saponins are surface active glycosides of triterpenes that possess a wide, biologically active group of terpenoids and include a large chemical diversity of secondary metabolites with more than different 100 carbon skeletons identified from terrestrial, marine living organisms, and medicinal plants.2 Triterpenoids as a saponin have its own characteristics like cause hemolysis of red blood cells (RBC’s), form persistent froth if shaken with water, and it is soluble in water, alcohol and a mixture of both. These naturally occurring compounds form the backbone of modern medicine or drugs. Saponins are a class of bioorganic compounds found in particular abundance in the plant kingdom. More specifically, they are naturally occurring glycosides described by the soap-like foaming, and consequently, they produce foams when shaken in aqueous solutions. Structurally saponins are having one or more hydrophilic glycoside sugar moieties combined with a lipophilic triterpene molecule.3 Literature shows that saponins exhibit a biological role and medicinal properties such as hemolytic factor4 anti-inflammatory,5 antibacterial,6 antifungal,7 antiviral,8 insecticidal9, anticancer,10 cytotoxic11 and molluscicidal action.12 In addition, saponins are reported to exhibit cholesterol-lowering action in animals and human.13,14 Waheed et al.15 isolated a novel steroidal saponin glycoside from Fagonia indica that can induce cell-selective apoptosis or necrosis in cancer cells. Saponins were considered as a starting precursor for the semi-synthesis of steroidal drugs in the pharmaceutical industry. Sheng et al.16 reviewed the clinical significance of triterpenoid saponins in the prevention and treatment of metabolic and vascular disease. The above medicinal researches and applications reflect the increasing of the interest of saponins as a bionatural source material, but understanding of the relationship between the chemistry of saponins and its medical action is not easy task for many chemists, physicians, and researchers. Due to the complexity, importance, and interferences of the chemistry of saponin, the main purpose of this review article is giving detailed information about (1) the classification of saponin, (2) the chemical structure of various types of saponins and its functional groups, (3) examples for mono and didesmosidic triterpenoid saponins, (4) ordinary and soxhlet extraction methods in the laboratory, and finally (5) qualitative, and quantitative determination of saponins.
据估计,在世界上报道的42.2万种开花植物中,有5万多种是药用的自古以来,具有生物活性的药用植物就被用于传统或民间医学中,用于治疗各种疾病。近年来,人们认为植物化学物质的使用更安全,更符合人体的生物学特性。药用植物是制备和提取各种现代药物和皂苷等药物的主要原料。筛选各种药用植物的化学方法的迅速发展和积累,极大地支持了植物化学的进步迹象。所应用药用植物的药学和药用价值在于其对人体产生特定生理作用的生物活性植物化学成分。一些最重要的生物活性成分是皂苷、类黄酮和生物碱。三萜皂苷是三萜的表面活性糖苷,具有广泛的生物活性萜类,包括次生代谢产物的化学多样性,从陆地、海洋生物和药用植物中鉴定出100多种不同的碳骨架三萜作为一种皂苷有其自身的特点,如引起红细胞溶血,如果与水摇晃会形成持久的泡沫,它可溶于水、酒精和两者的混合物。这些自然产生的化合物构成了现代医学或药物的支柱。皂苷是一类生物有机化合物,在植物界中含量特别丰富。更具体地说,它们是由肥皂样泡沫描述的天然存在的糖苷,因此,当它们在水溶液中摇晃时产生泡沫。从结构上讲,皂苷具有一个或多个亲水性糖苷糖段与亲脂性三萜分子结合文献表明,皂苷具有溶血因子、抗炎因子、抗菌因子、抗真菌因子、抗病毒因子、杀虫因子、抗癌因子、细胞毒因子和杀螺因子等生物学作用和药用价值此外,据报道,皂苷在动物和人类中表现出降低胆固醇的作用。13,14 Waheed et al.15从Fagonia indica中分离出一种新的甾体皂苷苷,可以诱导癌细胞的细胞选择性凋亡或坏死。在制药工业中,皂苷被认为是半合成甾体药物的起始前体。Sheng等16综述了三萜皂苷在预防和治疗代谢性和血管疾病中的临床意义。上述医学研究和应用反映了人们对皂苷作为一种生物来源材料的兴趣日益增加,但对许多化学家、医生和研究人员来说,了解皂苷的化学成分与其医学作用之间的关系并不容易。由于皂苷化学的复杂性、重要性和干扰性,本文主要介绍(1)皂苷的分类,(2)各类皂苷及其官能团的化学结构,(3)单、双硅酸三萜皂苷的举例,(4)实验室普通提取方法和索氏提取方法,最后(5)皂苷的定性、定量测定。