Lipoprotein lipase activation by red ginseng saponins in hyperlipidemia model animals.

The effect of ginseng saponins isolated from red ginseng (a steamed and dried root of Panax ginseng) has been studied in a cyclophosphamide (CPM)-induced hyperlipidemia model in fasted rabbits. In this model, chylomicrons and very low density lipoprotein (VLDL) accumulation was known to occur as a result of reduction in lipoprotein lipase (LPL) activity in the heart and heparin-releasable heart LPL. Oral administration of ginseng saponins at a dose of 0.01 g/kg for 4 weeks was found to reverse the increase in serum triglycerides (TG) and concomitant increase in cholesterol produced by CPM treatment, especially in chylomicrons and VLDL. In addition, ginseng saponins treatment led to a recovery in postheparin plasma LPL activity and heparin-releasable heart LPL activity, which were markedly reduced by CPM treatment. In rats given 15% glycerol/15% fructose solution, postheparin plasma LPL activity declined to two third of normal rats, whereas ginseng saponins reversed it to normal levels. In the present study we first demonstrated that ginseng saponins sustained LPL activity at a normal level or protected LPL activity from being decreased by several factors, resulting in the decrease of serum TG and cholesterol.     

Antimelanogenic Activity of Ocotillol‐Type Saponins from Panax vietnamensis

The ocotillol (OCT)‐type saponins have been known as a tetracyclic triterpenoid, possessing five‐ or six‐membered epoxy ring in the side chain. Interestingly, this type saponin was mostly found in Panax vietnamensis Ha et Grushv ., Araliaceae (VG), hence making VG unique from the other Panax spp. Five OCT‐type saponins, majonoside R2, vina‐ginsenoside R2, majonoside R1, pseudoginsenoside RT4, vina‐ginsenoside R11, together with three protopanaxadiol (PPD)‐type saponins and four protopanaxatriol (PPT)‐type saponins from VG were evaluated for their antimelanogenic activity. All of isolates were found to be active. More importantly, the five OCT‐type saponins inhibited melanin production in B16‐F10 mouse melanoma cells, without showing any cytotoxicity. Besides ginsenoside Rd and ginsenoside Rg3 in PPD and notoginsenoside R1 in PPT‐type saponins, majonoside R2 was the most potent melanogenesis inhibitory activity in OCT‐type saponins. In this article, we highlighted antimelanogenic activity of OCT‐type saponins and potential structure–activity relationship (SAR) of ginsenosides. Our results suggested that OCT‐type saponins could be used as a depigmentation agent.     

Plant saponins can affect DNA recombination in cultured mammalian cells

Some plant extracts and products are known to affect mammalian cells, tissues and organisms as they contain a toxic substance or a metabolic stimulant. Our biochemical investigations revealed that some plant saponins can increase the cellular DNA repair activity and the general recombinase activity measured by in vitro assay (1). In the experiments described here, HeLa cells were cultured for several days with plant saponins or flavonoids and analyzed to measure i) recombination activity of the cell extract by induction of Tcr colonies from two mutant DNAs (mutants 1 and 2, which are both tetracycline sensitive) after transformation into E. coli recA-, and ii) repair synthesis of nuclear DNA followed by incorporation of 3H-thymidine. Saikosaponins a, b1, d, ginsenosides Rb1, Re, Rh and flavonoid baicalin caused a significant stimulation of intermolecular recombination. It is worth noting that none of the plant saponins and flavonoids had any inhibitory or toxic effect at concentrations less than 25 micrograms/ml in the culture media.     

Synergistic interactions of saponins and monoterpenes in HeLa cells, Cos7 cells and in erythrocytes

In phytomedicine complex extracts consisting of phenolics, monoterpenes or saponins are traditionally used. It is often impossible to attribute the biological activity of an extract to one or few compounds. As an explanation of the superior activity of extracts, a synergistic effect of combinations of active compounds has been suggested. Since lipophilic monoterpenes or saponins targeting the biomembrane usually accompany polar polyphenols in phytomedical preparations, we decided to investigate their effect as single substances and in combination to gain further insight into potential synergistic effects of herbal medicine. Combinations of the monoterpenes α-pinene, thymol and menthol with the monodesmosidic saponins digitonin, aescin, glycyrrhizic acid and Quillaja saponin demonstrated strong synergistic activity. The IC(50) of haemolysis was lowered by a factor of 10-100 from 316μg/ml to 2μg/ml for aescin, 157μg/ml to 11μg/ml for Quillaja saponins and 20μg/ml to 3μg/ml for digitonin when combined with thymol. A similar significant synergistic cytotoxicity occurred both in HeLa and Cos7 cells by combining the α-pinene, thymol and menthol with the saponins. The IC(50) of glycyrrhizic acid was lowered by a factor 100 from around 300μg/ml to around 1-10μg/ml and the IC(50) of aescin, digitonin and Quillaja saponins about the factor 10. Monoterpenes and monodesmosidic saponins have a common target, the biomembrane, which is present in all animal, fungal and bacterial cells. Disturbance of membrane fluidity and permeability is the mode of action. This activity is non-specific which makes it extremely difficult for bacteria and fungi to develop resistance. This explains the overall success of these molecules as defence chemicals in the plant kingdom. The synergistic effect of combinations of saponins with monoterpenes opens a complete new field of possible applications in medicine to overcome resistance in multidrug resistant microbial and human cell.     

Effect of Quillaja saponaria saponins and Yucca schidigera plant extract on growth of Escherichia coli

Escherichia coli K-12 was exposed to Quillaja saponaria saponins from various commercial firms (Sigma, Roth and Nor-feed) and to an extract of Yucca schidigera plant powder (DK Sarsaponin 30) at different concentrations (0·05–1·0% w/v). A concentration-dependent response was observed. Quillaja saponaria saponins from Sigma increased growth up to 0·1% (w/v) level, whereas Nor-feed and Roth saponins produced maximum growth at a much higher level (0·5 and 0·75%, w/v, respectively). These results suggest that quillaja saponins from various sources differ in their biological activity, although all three saponins had the same content of vanillin-sulphuric acid reactive moieties. The lyophilized water extract from the DK Sarsaponin powder showed maximum growth at 0·1% (w/v) level. The levels at which maximum growth was observed did not change on subjecting the quillaja or yucca saponins to heat treatment in an autoclave (121 °C for 30 min). All the saponins and the plant extract increased growth of Escherichia coli up to a certain concentration and thereafter decreased growth. In spite of the decreased growth at higher levels of saponins, it was higher compared to the control (without saponin) up to levels of 1% (w/v) for all saponins except Quillaja saponins from Sigma, for which the growth was lower at levels of 0·25% (w/v) and higher. Saponins have the potential to modulate microbial growth in natural and artificial fermenters.     

Cytotoxic and anti-colorectal tumor effects of sulfated saponins from sea cucumber Holothuria moebii

BackgroundWhether sulfated saponins from Holothuria moebii inhibit the proliferation of colorectal cancer cells and have anti-colorectal tumor effects in animal model has not been investigated.PurposeTo evaluate the cytotoxic and anti-colorectal tumor effects of sulfated saponins from sea cucumber Holothuria moebii.Method(1) Column chromatography was used to prepare the total and individual saponins and HPLC was applied to define the components of the total saponins; (2) the activity of the total and individual saponins inhibiting the proliferation of human colorectal cancer cells was determined by SRB assay and the apoptosis induced by the saponins was qualified using cytometric analysis with Annexin V-FITC/PI double staining; and (3) the antitumor effects of the sulfated saponins on colorectal CT-26 tumor-bearing Balb/c mice were tested.ResultsThe total and individual sulfated saponins significantly inhibited the proliferation of four different human colorectal cancer cells with IC₅₀ values ranging from 1.04 to 4.08 μM (or 1.46 to 3.24 μg/ml for total saponins) and induced late apoptosis at an early treatment time in cancer cells. The total saponins (120 mg/kg) had antitumor activity in colorectal CT-26 tumor-bearing Balb/c mice.ConclusionThe sulfated saponins from H. moebii remarkably inhibited the proliferation of different human colorectal cancer cells and had significant anti-colorectal tumor activity in animal model.     

百合总皂苷提取工艺及抗抑郁活性研究

本文研究百合总皂苷最佳提取工艺,继而采用AB-8大孔吸附树脂富集纯化百合总皂苷,并测试其抗抑郁活性。采用正交实验,考察乙醇浓度、提取次数、固液比及提取时间四个因素对该工艺的影响;采用小鼠悬尾实验和小鼠强迫游泳实验评价百合总皂苷的抗抑郁活性。确立了百合总皂苷的最佳提取工艺为:提取时间3h,乙醇浓度80%,固液比1∶10,提取次数为3次。在最佳提取工艺条件下,总皂苷提取率为1.24%。经过AB-8大孔树脂富集纯化总皂苷的含量达到62%以上。药理实验表明,百合总皂苷中剂量、小剂量能明显缩短小鼠悬尾的不动时间和游泳时间(P<0.05或者P<0.01),百合富集纯化的总皂苷部位具有较好的抗抑郁活性。     

Adjuvant and haemolytic activities of 47 saponins derived from medicinal and food plants

Adjuvant and haemolytic activities of 47 saponins purified from medicinal and food plants were examined. The compounds showed various levels of both adjuvant and haemolytic activities. Soyasaponins and lablabosides showed strong adjuvant activity but little haemolytic activity. Jujubosides showed strong adjuvant and haemolytic activities. Escins showed weaker adjuvant activity than the adjuvant-control, but strong haemolytic activity. Comparison of the functional groups of each saponin revealed that the acyl residue in saponin, the aldehyde group at carbon 4 in aglycone, and branched sugar chains attached to aglycone, were not essential for adjuvant activity. Furthermore, saponins with an acyl residue or oxide-ring moiety tended to show haemolytic activity. These results suggest that the adjuvant activity of saponins does not relate with haemolytic activity. It is considered that not only the functional groups themselves, but the overall conformation harmoniously consisting of such functional groups, affects adjuvant activity of saponins.     

Tyrosinase Inhibitory Effects and Antioxidative Activities of Saponins from Xanthoceras Sorbifolia Nutshell

Certain saponins are bioactive compounds with anticancer, antivirus and antioxidant activities. This paper discussed inhibitory effects of saponins from Xanthoceras Sorbifolia on tyrosinase, through the research of the rate of tyrosinase catalyzed L-DOPA oxidation. The inhibition rate of tyrosinase activity presented non-linear changes with the saponins concentration. The rate reached 52.0% when the saponins concentration was 0.96 mg/ml. Antioxidant activities of saponins from Xanthoceras Sorbifolia were evaluated by using hydroxyl and superoxide radical scavenging assays. The hydroxyl radical scavenging effects of the saponins were 15.5–68.7%, respectively at the concentration of 0.18–2.52 mg/ml. The superoxide radical scavenging activity reduced from 96.6% to 7.05% with the time increasing at the concentration of 1.44 mg/ml. All the above antioxidant evaluation indicated that saponins from Xanthoceras Sorbifolia exhibited good antioxidant activity in a concentration- dependent manner.     

Structure–activity relationships of some hederagenin diglycosides: Haemolysis,cytotoxicity and apoptosis induction

Hederagenin saponins are largely represented in nature and possess many biological activities such as haemolytic, antiviral, fungicidal, molluscicidal or cytotoxic, partially due to their interaction with the cell membrane. The lysis of erythrocytes (haemolysis) is a simple test to evaluate this adsorption, and this activity has been linked to the structure of the aglycone and also depends on the sugar moiety of the saponin. To further complete our study of the structure–activity relationships of triterpenoid saponins, α-hederin and related hederagenin diglycosides were synthesized to better understand the influence of the second sugar (α-l-rhamnose, β-d-xylose or β-d-glucose) and the substitution of this sugar on α-l-arabinose (position 2, 3 or 4). Haemolysis and cytotoxic activity on KB cells were tested. These compounds probably interact with membrane cholesterol and produce destabilization of the membrane inducing haemolysis. Cytotoxicity could involve the same mechanism, although some saponins induce an apoptotic process. The nuclear structure of the KB cell was thus investigated by confocal microscopy. The cytotoxic activity of a second group of hederagenin glucoside saponins was also evaluated. Our results showed that cytotoxicity was a result of both the sugar part and the structure of genin (carboxylic acid or methyl ester).     

Triterpenoid saponins from the stem bark of Caryocar villosum

Five triterpenoid saponins, caryocarosides II-22 (3), III-22 (4), II-23 (5), III-23 (6), and II-24 (7), have been isolated from the methanol extract of the stem bark of Caryocar villosum, along with two known saponins (1-2). The seven saponins are glucuronides of hederagenin (II) or bayogenin (III). Caryocaroside II-24 (7) is an unusual galloyl ester saponin acylated on the sugar chain attached to C-28, the 3-O-alpha-L-rhamnopyranosyl-(1-->3)-beta-D-galactopyranosyl-(1-->3)-beta-D-glucuronopyranosyl hederagenin-28-O-[2-O-galloyl-beta-D-glucopyranosyl] ester. The structures of the saponins were established on the basis of extensive NMR ((13)C, (1)H, COSY, TOCSY, HSQC, HMBC and ROESY) and ESI-MS studies. The cytotoxic activity of saponins 2 and 3 was evaluated in vitro against human keratinocytes. The DOPA-oxidase inhibition and the lipolytic activities were evaluated ex vivo using an explant of human adipose tissue.     

人参皂苷降脂作用的研究

为了测定西洋参总皂苷及单体皂苷是否有降脂活性,通过体外实验分别测定脂肪分解活性、小肠刷状缘膜小囊吸收脂肪酸、三油酸甘油酯油酸的释放率。结果表明,西洋参茎叶总皂苷在0．5g／L浓度时,对胰脂肪酶活性的抑制率为90％;人参皂苷Rc,Rb1,Rb2对胰脂肪酶活性均显示很强的抑制作用,在0．5g／L浓度时抑制率分别为100％,96％,97％。西洋参总皂苷和人参皂苷Rc,Rh,Rb2可以通过抑制胰脂肪酶活性起到降脂作用。     

Saponins as cytotoxic agents: a review

Saponins are natural glycosides which possess a wide range of pharmacological properties including cytotoxic activity. In this review, the recent studies (2005–2009) concerning the cytotoxic activity of saponins have been summarized. The correlations between the structure and the cytotoxicity of both steroid and triterpenoid saponins have been described as well as the most common mechanisms of action.     

Steroidal saponins from the genus <Emphasis Type="Italic">Allium</Emphasis>

Steroidal saponins are widely distributed among monocots, including the Amaryllidaceae family to which the Allium genus is currently classified. Apart from sulfur compounds, these are important biologically active molecules that are considered to be responsible for the observed activity of Allium species, including antifungal, cytotoxic, enzyme-inhibitory, and other. In this paper, literature data concerning chemistry and biological activity of steroidal saponins from the Allium genus has been reviewed.     

Exploration of the correlation between the structure, hemolytic activity, and cytotoxicity of steroid saponins

The hemolytic activity of a collection of 63 steroid saponins was determined. The correlations between these structures and their hemolytic and cytotoxic activities are discussed. It has been demonstrated that the hemolytic activity of steroid saponins is highly dependent on their structures, that is, the sugar length, the sugar linkage, the substitutes on the sugar, as well as the aglycone. It has also been disclosed that the hemolytic activity and cytotoxicity of steroid saponins are not correlated. These results suggest that steroid saponins execute hemolysis and cytotoxic activity in different mechanisms, and encourage to develop steroid saponins into potent antitumor agents devoid of the detrimental effect of hemolysis.     

Structural analogues of diosgenyl saponins: Synthesis and anticancer activity

Saponins display various biological activities including anti-tumor activity. Recently intensive research has been focused on developing saponins for tumor therapies. The diosgenyl saponin dioscin is one of the most common steroidal saponins and exhibits potent anticancer activity in several human cancer cells through apoptosis-inducing pathways. In this paper, we describe the synthesis of several diosgenyl saponin analogues containing either a 2-amino-2-deoxy-β-d-glucopyranosyl residue or an α-l-rhamnopyranosyl-(1→4)-2-amino-2-deoxy-β-d-glucopyranosyl residue with different acyl substituents on the amino group. The cytotoxic activity of these compounds was evaluated in MCF-7 breast cancer cells and HeLa cervical cancer cells. Structure–activity relationship studies show that the disaccharide saponin analogues are in general less active than their corresponding monosaccharide analogues. The incorporation of an aromatic nitro functionality into these saponin analogues does not exhibit significant effect on their cytotoxic activity.     

Adjuvant activities of saponins from the root of Polygala senega L

Eight pure triterpenoid saponin compounds isolated from the root of Polygala senega L., a plant indigenous to the Canadian prairies, were evaluated for their immunological activity in mouse models. The specific antibody responses of the IgG2a subclass increased significantly when isolated P. senega saponins were used as adjuvants in the immunization of mice with OVA antigen. In addition, increased IL-2 levels were observed in spleen cell cultures from P. senega saponin-immunized mice after in vitro secondary antigen stimulation. The saponins were tested for their toxicity in mice by using a haemolytic activity assay and found to be less toxic than Quillaja saponaria saponins that have long been used as adjuvants in vaccine formulations. This study has shown the potential of P. senega saponins to be considered as a natural source of vaccine adjuvants with biological activity equivalent to the current commercially available saponin adjuvants.     

N-Aminoacyl and N-hydroxyacyl derivatives of diosgenyl 2-amino-2-deoxy-β-d-glucopyranoside: Synthesis,antimicrobial and hemolytic activities

Diosgenyl 2-amino-2-deoxy-β-d-glucopyranoside is a semisynthetic saponin with antimicrobial and antitumor activities. To search for more effective analogues, N-aminoacyl and N-hydroxyacyl derivatives of this saponin were synthesized conventionally and with microwave assistance, and tested against the human pathogenic fungi and Gram-positive and Gram-negative bacteria. None of the tested compounds exhibit activity against Gram-negative bacteria. Almost all of the synthesized N-aminoacyl saponins exhibit antifungal activity and act effectively against Gram-positive bacteria, some better than the parent compound. The best acting saponins are the same size and possess sarcosine or l- or d-alanine attached to the parent glucosaminoside. Shorter and longer aminoacyl residues are less advantageous. d-Alanine derivative is the most effective against Gram positive bacteria. Structure-activity relationship (SAR) analysis indicates that the free α-amino group in aminoacyl residue is necessary for antimicrobial activities of the tested saponins. (N-Acetyl)aminoacyl and N-hydroxyacyl analogs are inactive. Measurements of the hemolytic activities demonstrate that the best acting saponins are not toxic towards human red blood cells.     

Synthesis and structure-activity relationship study of cytotoxic germanicane- and lupane-type 3beta-O-monodesmosidic saponins starting from betulin

Germanicane-type triterpenes allobetulin (3) and 28-oxoallobetulin (4) can be obtained by the Wagner-Meerwein rearrangement of the more available lupane-type triterpenes betulin (1) and betulinic acid (2), respectively. The medical uses of betulinic acid (2) and its derivatives are limited because of their poor hydrosolubility and pharmacokinetics properties. In order to overcome this major problem, we synthesized and studied the in vitro anticancer activity of a series of 3beta-O-monodesmosidic saponins derived from betulin (14-16), betulinic acid (20-22), allobetulin (23-28) and 28-oxoallobetulin (29-34) based on six different natural sugar residues (d-glucose, l-rhamnose, d-arabinose, d-galactose, d-mannose and d-xylose). This structure-activity relationship study confirmed that betulinic acid saponins are generally better in vitro anticancer agents than those derived from betulin with the exception of betulin 3beta-O-alpha-d-mannopyranoside (15) which exerted a potent cytotoxic activity against lung carcinoma (A-549) and colorectal adenocarcinoma (DLD-1) human cell lines with IC(50) ranging from 7.3 to 10.1mumol/L. Furthermore, although the synthesis of novel germanicane-type saponins was carried out with success, the bioactivity measured for these glycosides was not as high as we anticipated since only the 3beta-O-beta-d-glucopyranoside and 3beta-O-beta-d-galactopyranoside of allobetulin (23,24) showed moderate anticancer activity (IC(50) 30-40 micromol/L).     

Comparative assessment of purified saponins as permeabilization agents during respirometry

Saponins are a diverse group of secondary plant metabolites, some of which display hemolytic toxicity due to plasma membrane permeabilization. This feature is employed in biological applications for transferring hydrophilic molecules through cell membranes. Widely used commercial saponins include digitonin and saponins from soap tree bark, both of which constitute complex mixtures of little definition. We assessed the permeabilization power of pure saponins towards cellular membranes in an effort to detect novel properties and to improve existing applications.In a respirometric assay, we characterized half-maximal permeabilization of the plasma membrane for different metabolites, of the mitochondrial outer membrane for cytochrome C and the full solubilization of mitochondrial inner membrane protein complexes.Beyond the complete list as repository for the field, we highlight several findings with direct applicability. First, we identified and validated α-chaconine as alternative permeabilization agent in respirometric assays of cultured cells and isolated synaptosomes, superior to digitonin in its tolerability for mitochondria. Second, we identified glycyrrhizic acid to form exceptionally small pores impermeable for adenosine diphosphate. Third, in a concentration dependent manner, tomatine proved to be able to selectively permeabilize the mitochondrial outer, but not inner membrane, allowing for novel states in which to determine cytochrome C oxidase activity.In summary, we provide a list of the permeabilization properties of 18 pure saponins. The identification of two saponins, namely tomatine and chaconine, with direct usability in improved or novel cell biological applications within this small subgroup demonstrates the tremendous potential for further functional screening of pure saponins.