苦豆子生物碱对萝卜蚜的毒力及其对几种酯酶的影响

苦豆子Sophora alopecuroids(L.)的次生代谢物质为喹诺里西定生物碱类。本研究明确了该生物碱中的野靛碱对萝卜蚜(Lipaphis erysimi)有很高的毒杀作用,对其无翅成蚜的致死中浓度(LC₅₀浸渍法)为(432.59±2.12)mg/L,优于著名的杀蚜生物碱毒黎碱和烟碱,两者对该试虫的LC₅₀分别为(684.70±2.28)mg/L和(1090.65±2.01)mg/L。用小菜蛾(Plutella xylostella)幼虫作试虫,得知苦豆子7种主要生物碱对昆虫的乙酰胆碱酯酶(AChE)有抑制作用,其抑制程度排序为：总碱>野靛碱>槐胺碱>槐定碱>槐果碱>氧化苦参碱>苦参碱>苦豆碱。野靛碱和苦豆碱对a-乙酸萘酯酶、a-乙酸萘酯羧酸酯酶及酯酶同功酶的活性亦表现不同程度的抑制作用。     

Piperidine alkaloid composition and relation to crooked calf disease-inducing potential of Lupinus formosus

A congenital deformity condition called crooked calf disease, of widespread occurrence in western North America, is known to be induced by maternal ingestion during gestation of certain members of the Lupinus genus containing the quinolizidine alkaloid teratogen anagyrine. Because some piperidine alkaloids from other sources induce a similar condition, we have investigated the alkaloid composition and teratogenicity of Lupinus formosus, reported by others to be low in quinolizidines but rich in the type of piperidine alkaloids that we have speculated would be teratogenic. GC/MS analysis of L. formosus showed seven major and nine minor components in the total alkaloid fraction. All seven major and five of the nine minor components, representing all but 3% of the fraction, were identified by mass spectrometric fragmentation patterns and GC retention times. They included several potentially teratogenic piperidine alkaloids (including a very large amount of ammodendrine), as well as several nonteratogenic quinolizidine alkaloids plus a trace (at nonteratogenic levels) of the known quinolizidine teratogen anagyrine. The plant induced severe crooked calf disease with limb, spinal, and palate involvement in experimental calves. The deformities are believed to have been induced by ammodendrine.     

Hypoglycemic and hypolipidemic effects of oxymatrine in high-fat diet and streptozotocin-induced diabetic rats

Oxymatrine, a quinolizidine alkaloid, has been widely used for the treatment of hepatitis. In this study, we investigated the hypoglycemic and hypolipidemic effects and new pharmacological activities of oxymatrine, in a high-fat diet and streptozotocin (STZ)-induced diabetic rats. The results demonstrated that oxymatrine could significantly decrease fasting blood glucose, glycosylated hemoglobin (GHb), food and water intake, non-esterified fatty acid (NEFA), total cholesterol (TC), triglyceride (TG), low density lipoprotein cholesterol levels (LDL-c), and increase serum insulin, liver and muscle glycogen, high density lipoprotein cholesterol (HDL-c), glucagon-like peptide-1 (GLP-1) and muscle glucose transporter-4 (GLUT-4) content in diabetic rats. The results of the histological examinations of the pancreas and liver show that oxymatrine protected the islet architecture and prevented disordered structure of the liver. This study displays that oxymatrine can alleviate hyperglycemia and hyperlipemia in a high-fat diet and STZ-induced diabetic rats might by improving insulin secretion and sensitivity.     

Alkaloid profile of leaves and seeds of Lupinus hintonii C. P. Smith

L. hintonii C. P. Smith grows in the Central Highland forests of Mexico at altitudes between 2800 m to 3200 m above see level. Members of the genus Lupinus produce quinolizidine alkaloids as main chemical defensive compounds against herbivores. Surprisingly alkaloid profiles are rather constant within this species, while substantial variation was found when compared to morphologically closely related other taxa. As part of a phytochemical project on Mexican wild lupins, we report on the alkaloid profiles of seeds and leaves of L. hintonii. 19 alkaloids could be identified by capillary GLC-MS. Six major alkaloids occurred in leaves and seeds: 13-hydroxylupanine (28% and 45% respectively), tetrahydrorhombifoline (31% and 23% respectively), angustifoline (2% and 4% respectively), lupanine (7% and 5% respectively), 13alpha-tigloyloxylupanine (19% and 5% respectively) and 4alpha-angeloyl-3beta-hydroxylupanine (9% and 2%). This chemical pattern resembles that of the North American lupin L. floribundus.     

Phytochemical differences between Calia secundiflora (Leguminosae) growing at two sites in Mexico

The ecology and quinolizidine alkaloid chemistry of Calia secundiflora (Ortega) Yakovlev growing at two sites in Mexico were compared. At one site (Hidalgo) the vegetation was dominated by Flourensia resinosa and C. secundiflora, at the other site (Queretaro) C. secundiflora and Dodanaea viscosa were dominant. The Hidalgo site had shallower soils with less organic matter, N, P, and CaCO3. Seeds of C. secundiflora from each site accumulated a similar range of quinolizidine alkaloids, but the profile of alkaloids in the leaves and roots were different. The leaves and roots of plants at Hidalgo accumulated a similar range of alkaloids to the seeds with cytisine and/or N-methylcytisine being most abundant, whereas at Queretaro the leaves and roots accumulated lupinine, with other alkaloids being relatively minor constituents. The latter profile has not been reported previously for C. secundiflora.     

Support for the removal of Cyclolobium from tribe Millettieae (Leguminosae) from its quinolizidine alkaloid status

Fruits of Cyclolobium brasiliense Benth. (Leguminosae; Papilionoideae) were found to contain quinolizidine alkaloids. Several tetracyclic sparteine-type alkaloids, the bipiperidyl alkaloid ammodendrine and the α-pyridone alkaloid N-methylcytisine were identified. The presence of quinolizidine alkaloids in this monotypic genus supports a relationship with tribe Brongniartieae and genistoid tribes rather than its current placement in tribe Millettieae.     

Quinolizidine alkaloid status of Styphnolobium and Cladrastis (Leguminosae)

Reports of quinolizidine alkaloids in Styphnolobium Schott and Cladrastis Raf. (Leguminosae) conflict with their position in recent molecular phylogenies because they are not members of a major clade of quinolizidine alkaloid-accumulating taxa. The alkaloid status of these two genera was therefore re-investigated using gas chromatography–mass spectrometry. Quinolizidine alkaloids could not be detected in extracts of leaves, flowers or seeds of S. japonicum (L.) Schott, nor in leaves of S. affine (Torrey & A. Gray) Walp., C. delavayi (Franch.) Prain, C. kentukea (Dum.-Cours.) Rudd or C. platycarpa Mak. In contrast, Calia secundiflora (Ortega) Yakovlev, also currently placed outside the major clade of quinolizidine alkaloid-producing genera in molecular phylogenies, was confirmed to accumulate a range of quinolizidine alkaloids.     

Concomitant occurrence of pyrrolizidine and quinolizidine alkaloids in the hemiparasite Osyris alba L. (Santalaceae)

The investigation of the alkaloid extracts of the hemiparasitic plant Osyris alba, collected from three different localities in southern France, revealed the concomitant presence of both pyrrolizidine (PA) and quinolizidine (QA) alkaloids in the samples from two of these localities. The sample from the third locality contained only PAs. The eight QAs identified were sparteine, N-methylcytisine, cytisine, methyl-12-cytisine acetate, hydroxy-N-methylcytisine, N-acetylcytisine, lupanine, and anagyrine. Of the eleven detected PAs, eight were identified as chysin A, chysin B, 1-carboxypyrrolizidine-7-olide, senecionine, integerrimine, retrorsine, senecivernine and a new alkaloid janfestine (7R-hydroxychysin A or 1R-carbomethoxy-7R-hydroxypyrrolizidine). PAs were mainly present as their N-oxides This is, to our knowledge, the first report demonstrating the simultaneous presence of two classes of alkaloids, quinolizidine and pyrrolizidine alkaloids, in a single parasitic plant. As these alkaloids do not occur in the same host plant, the results indicate that Osyris must have tapped more than one host plant concomitantly. Since both quinolizidine and pyrrolizidine alkaloids serve as defence compounds against herbivores, affecting different molecular targets, the simultaneous acquisition of the two types of alkaloids by a single plant could provide a novel mode of defence of hemiparasites against herbivores.     

Inhibition of seed germination by quinolizidine alkaloids

Germination of Lactuca sativa L. was inhibited by mixtures of quinolizidine alkaloids. The alkaloid esters resulted in the strongest inhibition: 6 mM 13-tigloyloxylupanine inhibited germination by 100%, whereas the other lupin alkaloids, such as lupanine and sparteine, gave a 45 and 20% inhibition, respectively. Seedlings of Lupinus albus L., which are not affected by quinolizidine alkaloids, excrete lupanine and 13-tigloyloxylupanine into the surrounding medium by their roots. It is assumed that lupin alkaloids are potential compounds of plant-plant interaction (i.e. allelopathy) besides their role in plant-herbivore interrelations.     

乌头营养器官中生物碱组织化学与积累动态研究

应用组织化学、荧光显微观察与生物碱提取技术相结合,研究了成熟的乌头(Aconitum carmichaelii)各营养器官中生物碱的分布及不同生长期生物碱含量的变化。结果表明,生物碱主要分布在主根(川乌)次生韧皮部薄壁组织细胞与束间形成层的外侧细胞以及不定根(附子)和茎基部的内皮层和韧皮部外侧薄壁细胞中,叶中含量极少,主根、不定根和茎中生物碱的含量峰值分别出现在8月、7月和5月,而叶中生物碱含量很低且随时间的变化不明显。     

(+)-2,3-dehydro-10-oxo-alpha-isosparteine in Uresiphita reversalis larvae fed on Cytisus monspessulanus leaves

Quinolizidine alkaloids, found in the leaves of Cytisus monspessulanus L. (Leguminosae), were characterized in the cuticle of larvae of the pyralid moth Uresiphita reversalis (Lepidoptera: Pyralidae) when the latter were fed on this weed. By GC-MS analysis of the methanolic extracts of the cuticle, four quinolizidine alkaloids, N-methylcytisine, cytisine, aphylline and anagyrine, were identified as possible defense substances. In addition, the quinolizidine alkaloid, (+)-2,3-dehydro-10-oxo-alpha-isosparteine was characterized in both the insect and host plant.     

Localization of the Enzymes of Quinolizidine Alkaloid Biosynthesis in Leaf Chloroplasts of Lupinus polyphyllus

Studies with purified chloroplasts of Lupinus polyphyllus LINDL. leaflets indicate that the first two enzymes of quinolizidine alkaloid biosynthesis, lysine decarboxylase and 17-oxosparteine synthase, are localized in the chloroplast stroma. Thus, both enzymes share the same subcellular compartment as the biosynthetic pathway of lysine, the precursor of quinolizidine alkaloids. The activity of diaminopimelate decarboxylase, the final enzyme in lysine biosynthesis, is about two to three orders of magnitude higher than that of the enzymes of alkaloid formation.     

Molecular characterization of a novel quinolizidine alkaloid O-tigloyltransferase: cDNA cloning, catalytic activity of recombinant protein and expression analysis in Lupinus plants

A novel acyltransferase committed to the final step of quinolizidine alkaloid biosynthesis, tigloyl-CoA:(-)-13alpha-hydroxymultiflorine/(+)-13alpha-hydroxylupanine O-tigloyltransferase, has been purified from Lupinus albus. The internal amino acid sequences were determined with protease-digested fragments of 25 and 30 kDa bands, allowing design of primers for amplification of cDNA fragments by polymerase chain reaction. Using an amplified fragment as the probe, a full-length cDNA clone was isolated. Sequence analysis revealed that the cDNA encodes a protein of 453 amino acids with a molecular mass of 51.2 kDa. Phylogenetic analysis of the deduced amino acid sequences indicated that this alkaloid acyltransferase belongs to a unique subfamily of a plant acyl-CoA-dependent acyltransferase gene family. The cDNA was expressed in bacterial cells as a recombinant protein fused to glutathione S-transferase. The fusion protein was affinity purified and cleaved to yield the recombinant enzyme for the study of catalytic properties. The recombinant enzyme catalyzed the acyltransfer reaction from tigloyl-CoA to (-)-13alpha-hydroxymultiflorine and (+)-13alpha-hydroxylupanine. Benzoyl-CoA could also serve efficiently as an acyl donor for these hydroxylated alkaloids. RNA blot analysis suggested that the gene was expressed in roots and hypocotyls but not in cotyledons and leaves. These results indicated that this specialized acyltransferase, isolated for the first time as tigloyltransferase from nature, is committed to control the quinolizidine alkaloid patterns in a tissue-specific manner.     

Development and validation of a rapid capillary zone electrophoresis method for the determination of aconite alkaloids in aconite roots

Introduction – Aconites, with aconite alkaloids as the major therapeutic and toxic components, are used for the treatment of analgesic, antirheumatic and neurological symptoms. Quantification of the aconite alkaloids is important for the quality control of aconite‐containing drugs. Objective – To establish a validated capillary zone electrophoresis (CZE) method for the simultaneous determination of six major alkaloids, namely aconitine, mesaconitine, hypaconitine, benzoylaconine, benzoylmesaconine and benzoylhypaconine, in crude and processed aconite roots. Methodology – The CZE method was optimised and validated using a stability‐indicating method. The optimised running buffer was a mixture of 200 mm Tris, 150 mm perchloric acid and 40% 1,4‐dioxane (pH 7.8) with the capillary thermostated at 25°C. Results – Using the optimised method, six aconite alkaloids were well separated. The established method showed good precision, accuracy and recovery. Contents of these alkaloids in crude and processed aconites were determined and it was observed that the levels of individual alkaloids varied between samples. Conclusion – The developed CZE method was reliable for the quality control of aconites contained in herbal medicines. The method could also be used as an approach for toxicological studies. Copyright © 2009 John Wiley & Sons, Ltd.     

A quinolizidine alkaloid O-tigloyltransferase gene in wild and domesticated white lupin (Lupinus albus)

Wild white lupins have high levels of alkaloids, which cause a bitter taste, whereas domesticated white lupin varieties have a very low content of alkaloids in seeds. Genes for bitterness from wild white lupins are a contamination threat to domesticated white lupin via cross‐pollination. The gene(s) for alkaloid synthesis have not been clearly identified, and the associated molecular background among wild white lupin, domesticated and contaminated domesticated plant materials is unknown. So far, only tigloyl‐CoA:(?)‐13alpha‐hydroxymultiflorine/(+)‐13alpha‐hydroxylupanine O‐tigloyltransferase (HMT/HLTase) cDNA has been cloned based on protein analysis, which was suggested as encoding a quinolizidine alkaloid transferase regulating quinolizidine alkaloid biosynthesis. This gene has not yet been well characterised in important white lupin genotypes. In this study, we found that the majority of the intron sequence of the HMT/HLTase gene differed between wild white lupin accessions P25758 and P27593, and between the commercial varieties. The expression pattern as well as the expression level of the HMT/HLTase gene showed no difference between the P25758 and the low‐alkaloid variety Kiev mutant, suggesting the expression of the HMT/HLTase gene has no correlation with bitterness. However, the intron sequence is useful as a DNA marker in the identification of the contamination source of bitter seeds in commercial lupin seed lots.     

Induction of tropane alkaloid formation in transformed root cultures of Brugmansia suaveolens (Solanaceae)

Hairy root cultures of Brugmansia suaveolens were set up by infection of root tips with Agrobacterium rhizogenes. The successful transformation was confirmed by analysing rolC and virC genes using polymerase chain reaction (PCR). Hairy root cultures were employed to study the formation of tropane alkaloids, such as hyoscyamine. The transformed cultures were incubated with potential elicitors, such as methyljasmonate, quercetin and salicylic acid in order to stimulate the biosynthesis of tropane alkaloids. Profile and amounts of tropane alkaloids were analysed using capillary GLC-MS. At least 18 different tropane alkaloids could be identified. Treatment of the cultures with 200 microM methyljasmonate increased the alkaloid accumulation 25-fold up to a level of 1 mg/g fresh weight as compared to untreated controls. Quercetin enhanced the alkaloid production 10 fold (0.4 mg/g fresh weight) within 24 h. In contrast 100 microM salicylic acid decreased alkaloids to a level of 1 microg/g fresh weight.     

山豆根细胞毒活性成分研究

利用多种柱层析方法,从山豆根中分离得到四个生物碱,通过理化性质测定及波谱分析,分别鉴定为槐醇(1),13,14去氢槐醇(2),苦参碱(3)和氧化苦参碱(4),并首次利用MTT比色法测定了化合物1和2对体外培养的HL60及SMMC7721细胞增殖抑制率,同时分别考察了葛根素对二者增殖抑制试验的协同作用。     

Modelling of quinolizidine alkaloid net flows in Lupinus albus and between L. albus and the parasite Cuscuta reflexa: new insights into the site of quinolizidine alkaloid synthesis

The present work reveals new and completely different conclusionsabout the alkaloid economy of symbiotically fed Lupinus albusand L. albus parasitized by Cuscuta reflexa in the study periodof 43–55 d after sowing of lupin. Net flows of alkaloidswithin lupin and between host and parasite were calculated usingthe molar ratio of alkaloid nitrogen: total nitrogen combinedwith known net flows of nitrogen in the transport fluids andanalysing alkaloid accumulation in plant organs by HRGC. Incontrast to previous studies, quinolizidine alkaloids were predictedto be synthesized mainly in the root of L. albus and to be predominantlytransported via xylem to the apical plant shoot organs. Parasitismby C. reflexa for 12 d induced a decline of alkaloid contentin the host L. albus up to 53% compared to control plants andalkaloid synthesis was halved—apparently due to a shortageof the precursor lysine. In spite of an additional decreasein nitrogen levels at the second harvest, the host-parasitesystem showed a1.3-fold higher alkaloid content than the controlplants, 63% of the total alkaloids being attracted by Cuscuta.This indicates (a) restriction of catabolic processes withininfected lupins, (b) a massive shift of nitrogen metabolismin the direction of alkaloids and (c) an enormous sink potentialof Cuscuta for nitrogenous compounds. Although xylem was foundto be the main translocation system for alkaloids, the modellingof alkaloid flows predicts Cuscuta to derive only 4.5% of itstotal alkaloid supply from the xylem and 95.5% from the phloem.By analogy with nitrogen flows, this finding requires xylemphloemtransfers which were assumed to occur within the stem axis oflupin. A similar proportion regarding the contribution of xylemand phloem to the supply of Cuscuta was obtained for the netflows of two selected alkaloids, lupanine and 13     

A Study on the Original Plants of the Chinese Drug Guangdougen (Shandougen)

Guangdougen is generally known as Shandougen. It is a traditional Chinese drug. It can be used as antipyretic, antidote, anodyne or antiinflammation agent. In recent years, some compounds (alkaloids, flavones and a new glycoside) such as cytisine, matrine, oxymatrine, pterocarpin and isoprenyl chalcone, have been isolated from roots of Guangdougen for medicinal purposes. They give effects of antiarrhythmia, anticancer or antiulcer. A recent investigation reveals that the Guangdougen comes from Sophora tonkinensis Gagnep. (syn. Sophora subprostrata Chun et T. Chen) and Sophora tonkinensis Gagnep. var. polyphylla S. Z. Huang et Z. C. Zhou, var. nov. Gnangdougen is geographically restricted to SE. and NW. Guangxi and SE. Guizhou and Yunnan (103-109°E, 22-26°N). They have an ecological preference for limestone regions, very commonly growing in mountains of 500-800 m alt.     

The alkaloid profiles of Sophora nuttalliana and Sophora stenophylla

Sophora is a diverse genus in the family Fabaceae, comprised of herbs, shrubs, and trees that occurs throughout the world, primarily in the northern hemisphere. Species of Sophora are known to contain quinolizidine alkaloids that are toxic and potentially teratogenic. Two perennial herbaceous species occur in North America, Sophora stenophylla and Sophora nuttalliana. The quinolizidine alkaloid composition of these two species was investigated throughout their geographical distribution using field collections and herbarium specimens. Both species contain quinolizidine alkaloids, and S. nuttalliana contains the teratogen anagyrine. Lastly, neither species contains the neurotoxin swainsonine as implied by the common name “white loco” for S. nuttalliana.