Comparative HILIC/ESI-QTOF-MS and HPTLC studies of pyrrolizidine alkaloids in flowers of Tussilago farfara and roots of Arnebia euchroma

The utility of HPTLC and HILIC/ESI-QTOF-MS for the determination of pyrrolizidine alkaloids (PAs) and their N-oxides (PANOs) was compared in the selected plant species: Tussilago farfara L. (TF, flower) and Arnebia euchroma (Royle) I.M. Johnst. (AE, root). HPTLC confirmed the postulated presence of PAs (saturated and unsaturated) or PANOs in the tested extracts. In accordance with previous studies, HILIC/ESI-Q-TOF-MS confirmed the presence of the toxic PA senkirkine and the saturated otonecine-type PAs, tussilagine and isotussilagine in the TF extract and 7-angeloylretronecine and 9-angeloylretronecine in AE extract. Moreover, the following alkaloids were identified in AE root: intermedine, intermedine-N-oxide, leptanthine-N-oxide, echimidine-N-oxide (or their corresponding stereoisomers) and traces of 7-angeloylretronecine and 9-angeloylretronecine-N-oxide. The study demonstrates the HILIC/ESI-Q-TOF-MS method to be a very useful tool for monitoring PAs and PANOs in the test samples, even when not all of the necessary standards are available. Quantitative analysis of senkirkine in TF flower by HILIC/ESI-QTOF-MS featured high resolution, high precision, high mass accuracy, and very high sensitivity with limit-of-detection (LOD) of 27.50 fg/μL and limit-of-quantitation (LOQ) of 91.60 fg/μL. The results from both methods may be used for the development or rejection of European Pharmacopoeia (X) monographs of both investigated species.     

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.     

Pyrrolizidine alkaloids in two endemic capeverdian Echium species

Echium hypertropicum Webb and Echium stenosiphon Webb subsp. stenosiphon are capeverdian shrubs used in folk medicine for the treatment of cough and gastrointestinal diseases. Acid-base extraction was used to obtain alkaloid-rich fractions from both species. GC–MS and ESI-MS/MS analysis indicated the presence of pyrrolizidine alkaloids (PAs) and purified substances were also analyzed by 1D and 2D NMR experiments. A total of ten alkaloids were detected, eight of which were identified by comparing their molecular masses and mass fragmentation patterns with the NIST database and data in the literature. The hepatotoxic diesters echimidine and 7-(2-methylbutyryl)-9-echimidinylretronecine were identified in both species. Echimidine was the major component in the diethyl ether fraction from leaves of E. hypertropicum, whereas the 7-(2-methylbutyryl)-9-echimidinylretronecine was the major component in the dichloromethane fraction from leaves of E. stenosiphon. To our knowledge, this is the first report on the occurrence of pyrrolizidine alkaloids in capeverdian species of Echium. This study on Echium led to the identification of constituent pyrrolizidine alkaloids, serving to assist taxonomists with the complex taxonomy of this genus.     

Senecionine n-oxide,the primary product of pyrrolizidine alkaloid biosynthesis in root cultures of Senecio vulgaris

Root cultures of Senecio vulgaris synthesize pyrrolizidine alkaloids which are accumulated in the form of their N-oxides. The cultures incorporate biosynthetic precursors, such as arginine, ornithine, isoleucine, putrescine and spermidine, with high efficiency into the alkaloids. Senecionine N-oxide is found to be the primary product of biosynthesis. With putrescine and spermidine incorporation rates of 20–30% are obtained. The N-oxide synthesized does not appear to undergo significant turnover. Tertiary pyrrolizidine alkaloids, if found at all, occur in small amounts in old tissues only. They are derived from the corresponding oxides, and are easily formed spontaneously during alkaloid extraction. The suitability of N-oxides in alkaloid storage is discussed.     

UPLC-MS based metabolomics study on Senecio scandens and S. vulgaris: an approach for the differentiation of two Senecio herbs with similar morphology but different toxicity

Pyrrolizidine alkaloids show significant hepatotoxicity as they can bind to DNA or proteins after being activated in liver. Senecio vulgaris L., like many Compositae herbs containing pyrrolizidine alkaloids, was reported to have great hepatotoxicity. However, Senicio scandens Buch.-Ham., from the same genus, which was also used as a herb and documented in China Pharmacopoeia published in 2010, hardly showed any side effects or relevant toxicity. In the present study, we conducted the metabolomics study using ultra-performance liquid chromatography-mass spectrometry (UPLC-MS) to obtain the different metabolic profiles of the two Senecio herbs. In addition, principle component analysis (PCA) and orthogonal projections to latent structures-discriminant analysis (OPLS-DA) were introduced for the multivariate analysis, and MS/MS was applied to the identification of target alkaloid markers which contributed most to the established models. As a result, ten pyrrolizidine alkaloids, including adonifoline, senecionine, senecionine N-oxide, retrorsine, retrorsine N-oxide and seneciphylline, were selected and identified. Among them, adonifoline was found to be a specific marker for S. scandens while senecionine and its N-oxidative were characteristic markers for S. vulgaris. Furthermore, the hepatotoxicity studies in vivo and in vitro showed that senecionine had more potent toxicity (LD₅₀, 57.3?mg/kg; IC₅₀, 5.41???M) than that of adonifonine (LD₅₀, 163.3?mg/kg; IC₅₀, 49.91???M). Taken together, the present study provides not only better understanding of the different toxicity between the two Senecio herbs containing pyrrolizidine alkaloids but also a reference method, which can be applied to other genetically closed species with similar morphology but different toxicity.     

Phytochemical analysis and biological evaluation of the aerial parts from Symphytum anatolicum Boiss. and Cynoglottis barrelieri (All.) Vural & Kit Tan (Boraginaceae)

The present study is focused on the phytochemical analysis of the aerial parts of Symphytum anatolicum and Cynoglottis barrelieri (Boraginaceae). Their methanol extracts were subjected to qualitative LC-MS analysis, sixteen secondary metabolites have been identified from S. anatolicum and eighteen from C. barrelieri, respectively. Sixteen among all are phenolic derivatives (phenolic acids and flavonoids) and six belong to pyrrolizidine alkaloids (PAs) in the form of bases and/or N-oxides (PANOs). The observed chemical profiles are discussed chemotaxonomically as both species share the same tribe Boragineae. Caffeic acid and its derivatives together with quercetin- and kaempferol-glucosides were among the common metabolites, as they were identified in both studied plant species. Furthermore, their total phenolic and flavonoid contents were determined. Antioxidant capacity was evaluated by different chemical assays, together with their in vitro enzyme inhibitory properties towards cholinesterases (AChE and BChE), α-amylase and α-glucosidase. The results showed that C. barrelieri exhibited strong antioxidant activity, while S. anatolicum displayed good enzyme inhibitory effects contributing to a very interesting profile for further applications.     

Pyrrolic and N-oxide metabolites formed from pyrrolizidine alkaloids by hepatic microsomes in vitro: Relevance to in vivo hepatotoxicity

An analytical method of improved sensitivity has enabled measurements to be made of N-oxide as well as pyrrolic metabolites formed from a range of unsaturated pyrrolizidine alkaloids in hepatic microsome preparations. Using microsomes from livers of phenobarbitone-pretreated male Fischer rats, all 13 alkaloids tested were metabolised to both N-oxides and pyrroles. The most lipophilic alkaloids gave enhanced rates of metabolism. No consistent relationship existed between rates of N-oxide and of pyrrole formation. The two pathways appeared to be independent. The ratio of N-oxide to pyrrolic metabolites varied, depending on the type of ester: it was highest for ‘open’ diester alkaloids, lowest for 12 membered macrocyclic diesters and for monoesters. Steric hindrance by the acid moiety could account for these differences, by affecting the balance between microsomal oxidation of the amino alcohol moiety at the nitrogen and C8 positions respectively and could explain the high pyrrole yields given by some macrocyclic diesters. The levels of pyrrolic metabolites bound to liver tissues and responsible for hepatotoxicity in rats given pyrrolizidine alkaloids, did not necessarily reflect the rates of formation of such metabolites measured in vitro. In the animal additional factors could influence the formation and tissue binding of pyrrolic metabolites, including the detoxication of alkaloids by hydrolysis and the chemical reactivity and stability of the toxic metabolites. A comparison of heliotridine esters with retronecine esters showed that the 7-hydroxyl or -ester configuration had a relatively small influence on the balance between formation of pyrrolic metabolites and detoxication by N-oxidation. The results did not support any hypothesis that heliotridine esters should generally be more hepatotoxic than analogous retronecine esters. The structure of the acid moiety was likely to have at least as much influence on toxicity as the base configuration.     

Chemical constituents from Stenosolenium saxatile (Pall.) Turcz. (Boraginaceae)

Chemical investigation on the whole plants of Stenosolenium saxatile led to the isolation of three naphthoquinones (1–3), five pyrrolizidine alkaloids (PAs) (4–8), and six phenolic acids (9–14). The structure of the isolated compounds was elucidated by different spectrometric methods (¹H NMR, ¹³C NMR and ESI-MS). These results are the first chemical data on constituents of this genus. The chemotaxonomic relationships between the genera Stenosolenium, Onosma, Arnebia, Echium and Lithospermum are also discussed.     

Isoquinoline-derived alkaloids from the bark of Guatteria olivacea (Annonaceae)

Phytochemical investigation of the bark of Guatteria olivacea R. E. Fries (Annonaceae) led to the isolation and identification of ten isoquinoline-derived alkaloids, including three phenanthrenes, atherosperminine, argentinine, and atherosperminine N-oxide; three aporphines, asimilobine, puterine, and discoguattine; two oxoaporphines, liriodenine and oxoputerine; and two tetrahydroprotoberberines, corypalmine and discretine. All these alkaloids are described for the first time in G. olivacea and their chemotaxonomic significance was discussed. The structure elucidation of these isolated alkaloids was established by extensive analyses of 1D and 2D NMR spectroscopy in combination with MS. The NMR data for atherosperminine, argentinine, and atherosperminine N-oxide were reviewed.     

Pyrrolizidine alkaloids and other constituents from Emilia fosbergii Nicolson

Emilia fosbergii is a member of the tribe Senecioneae (Asteraceae), most species of which contain pyrrolizidine alkaloids. Notwithstanding, the phytochemistry of E. fosbergii is poorly understood, and pyrrolizidine alkaloids produced by this species have yet to be characterized. In this work, the presence of 11 pyrrolizidine alkaloids, three caffeoylquinic acid derivatives, and six flavonoids were detected by liquid chromatography coupled to high-resolution mass spectrometry analyses. Pyrrolizidine alkaloids of otonecine, retronecine, and platynecine bases are annotated in different parts of the plant. Furthermore, emiline was isolated, possibly indicating that E. fosbergii has a close phylogenetic relationship with E. coccinea. The chemophenetic implications of the presence of pyrrolizidine alkaloids in E. fosbergii and tribe Senecioneae are discussed.     

Mutagenicity of pyrrolizidine alkaloids in the Salmonella typhimurium/mammalian microsome system

The mutagenicity of a series of pyrrolizidine alkaloids, and of extracts from several Italian Senecio species containing pyrrolizidine alkaloids, including S. inaequidens, S. fuchsii and S. cacaliaster, were tested using the Salmonella typhimurium/mammalian microsome system. Retrorsine, senecivernine, seneciphylline and the Senecio extracts showed a weakly mutagenic activity.     

The protoberberine alkaloids of Stephania suberosa

Six new protoberberines were found in Stephama suberosa root extracts: (−)-tetrahydrostephabine, (−)-stephabinamine, stephabine, 8-oxypseudopalmatine, (−)-trans-xylopinine N-oxide and (−)-cis-xylopinine N-oxide. Ten known alkaloids were also detected: (−)-tetrahydropalmatine, (−)-tetrahydropalmatrubine, (−)-stepholidine, (−)-kikemanine, (−)-capaurimine, (−)-coreximine, (−)-corytenchine, (−)-discretine, pseudopalmatine and (−)-xylopinine.     

Safety assessment of food and herbal products containing hepatotoxic pyrrolizidine alkaloids: interlaboratory consistency and the importance of N-oxide determination

Introduction  – Two recent mass spectrometry‐based reports concerning Senecio scandens yielded remarkably dissimilar pyrrolizidine alkaloid constituents. In both studies, and in a related analysis of Senecio scandens and Tussilago farfara using micellar electrokinetic chromatography, the presence of hazardous N‐oxides of the alkaloids was either not considered or was inadequately considered. This raises concerns about the effectiveness of the methodologies used in these, and similar, studies in assessing the pyrrolizidine alkaloid content and the safety of food, food supplements and medicines for human use. Objective  – To highlight essential analytical requirements for confident assessment of pyrrolizidine alkaloid‐related safety of food and herbal products for human use. Methodology  – Direct infusion‐ESI MS and HPLC‐ESI MS were used to analyse samples derived from liquid–liquid partitioning experiments and from strong cation exchange, solid‐phase extraction of pyrrolizidine alkaloids and their N‐oxides. Results  – A simple solvent partitioning experiment using pure senecionine and senecionine‐N‐oxide, two constituents reported in one of the mass spectrometry‐based studies of S. scandens, clearly demonstrated the inadequacy of the reported method to detect and quantitate hazardous pyrrolizidine alkaloid N‐oxide components. A preliminary LCMS analysis of commercially‐prepared extracts of comfrey roots (Symphytum officinale and S. uplandicum s. l.) was used as a model to highlight the analytical importance of N‐oxides in the safety assessment of pyrrolizidine alkaloid‐containing medicinal herbs. Conclusions  – This study highlighted significant differences in the reported identification of pyrrolizidine alkaloids from the same plant species, and clearly demonstrated the inadequacy of some procedures to include N‐oxides in the assessment of pyrrolizidine alkaloid‐related safety of food and herbal products. Copyright © 2008 John Wiley & Sons, Ltd.     

Alkaloids from the leaves of Strychnos wallichiana

The leaves of Strychnos wallichiana Steud. ex. DC. from Bangladesh contain icajine and novacine as their major alkaloids. Smaller amounts of strychnine, brucine, pseudostrychnine, pseudobrucine, N-methyl-sec.-pseudo-β-colubrine, 14-hydroxyicajine, strychnine N-oxide, and brucine N-oxide are also present. The new bases 14 hydroxynovacine and icajine N-oxide have been isolated.     

Gustatory responsiveness to pyrrolizidine alkaloids in the Senecio specialist, Tyria jacobaeae (Lepidoptera, Arctiidae)

Abstract.  Electrophysiological recordings from taste sensilla of the caterpillar Tyria jacobaeae with the pyrrolizidine alkaloids, characteristic compounds from their host plants, demonstrated sensitivity of a pyrrolizidine alkaloid-sensitive cell in the lateral galeal sensilla at concentrations as low as 1 × 10⁻¹¹ M. Another pyrrolizidine alkaloid-sensitive cell in the medial galeal sensilla responded at higher concentrations. Both pyrrolizidine alkaloid-cells were maximally sensitive to seneciphylline N -oxide and senecionine N -oxide. Seven other pyrrolizidine alkaloids were less stimulating. Monocrotaline N -oxide was the least stimulating. Observation experiments demonstrated that differences in sensitivity to different pyrrolizidine alkaloids at the electrophysiological level were correlated with differences in feeding behaviour; the first feeding bout was of longer duration on diet containing seneciphylline N -oxide than on diet containing monocrotaline N -oxide, and a plain diet was generally not accepted.     

Soil-borne microorganisms and soil-type affect pyrrolizidine alkaloids in Jacobaea vulgaris

Secondary metabolites like pyrrolizidine alkaloids (PAs) play a crucial part in plant defense. We studied the effects of soil-borne microorganisms and soil-type on pyrrolizidine alkaloids in roots and shoots of Jacobaea vulgaris. We used clones of two genotypes from a dune area (Meijendel), propagated by tissue culture and grown on two sterilized soils and sterilized soils inoculated with 5% of non-sterilized soil of either of the two soil-types. Soil-borne microorganisms and soil-type affected the composition of PAs. By changing the composition rather than the total concentration below and aboveground, plants have a more complex defense strategy than formerly thought. Interestingly, a stronger negative effect on plant growth was found in sterilized soils inoculated with their ‘own’ microbial community suggesting that pathogenic and/or other plant inhibiting microorganisms were adapted to their ‘own’ soil conditions.     

The analysis of pyrrolizidine alkaloids in Jacobaea vulgaris; a comparison of extraction and detection methods

Introduction – Pyrrolizidine alkaloids (PAs) serve an important function in plant defence. Objective – To compare different extraction methods and detection techniques, namely gas chromatography with nitrogen phosphorus detection (GC‐NPD) and liquid chromatography tandem mass spectrometry (LC‐MS/MS) with quadrupole analysers for analysing PAs in Jacobaea vulgaris. Methodology – Both formic acid and sulfuric acid were tested for PA extraction from dry plant material. For GC‐NPD, reduction is required to transform PA N‐oxides into tertiary amines. Zinc and sodium metabisulfite were compared as reducing agents. Results – The lowest PA concentration measured with GC‐NPD was approximately 0.03 mg/g and with LC‐MS/MS 0.002 mg/g. The detection of major PAs by both techniques was comparable but a number of minor PAs were not detected by GC‐NPD. With the LC‐MS/MS procedure higher concentrations were found in plant extracts, indicating that losses may have occurred during the sample preparation for the GC‐NPD method. Zinc proved a more effective reducing agent than sodium metabisulfite. The sample preparation for LC‐MS/MS analysis using formic acid extraction without any reduction and purification steps is far less complex and less time consuming compared to GC‐NPD analysis with sulfuric acid extraction and PA N‐oxide reduction with zinc and purification. Conclusions – In terms of sensitivity and discrimination, formic acid extraction in combination with LC‐MS/MS detection is the method of choice for analysing PAs (both free and N‐oxides forms) in plant material. Copyright © 2009 John Wiley & Sons, Ltd.     

Alkaloids from Melodinus yunnanensis

Ten monoterpenoid indole alkaloids, namely meloyine, 19S-methoxytubotaiwine N₄-oxide, 16,19-epoxy-Δ¹⁴-vincanol, 14β-hydroxymeloyunine, meloyunine, Δ¹⁴-vincamenine N₄-oxide, 16β,21β-epoxy-vincadine, 14β,15β-20S-quebrachamine, 3-oxo-voaphylline, 2α,7α-dihydroxy-dihydrovoaphylline, and 32 known alkaloids were isolated from leaves and twigs of Melodinus yunnanensis. Their structures were elucidated based on 1- and 2-D NMR, FTIR, UV, and MS spectroscopic data. Meloyine I showed weak cytotoxic activity against four human cancer cell lines: MCF-7 breast cancer, SMMC-7721 hepatocellular carcinoma, HL-60 myeloid leukemia, and A-549 lung cancer.     

Uptake and metabolism of pyrrolizidine alkaloids in<Emphasis Type="Italic"> Longitarsus</Emphasis> flea beetles (Coleoptera: Chrysomelidae) adapted and non-adapted to alkaloid-containing host plants

Several Longitarsus flea beetle species sequester pyrrolizidine alkaloids acquired from their Asteraceae and Boraginaceae host plants. We carried out feeding and injection experiments using radioactively labeled pyrrolizidine alkaloids to investigate the physiological mechanisms of uptake, metabolism and storage of alkaloids in adult beetles. We examined six Longitarsus species belonging to different phylogenetic clades in a comparative approach. All species that accepted pyrrolizidine alkaloids in a preceding food choice study showed the ability both to store pyrrolizidine alkaloid N-oxides and to metabolize tertiary pyrrolizidine alkaloids into their N-oxides. Regardless of whether the beetles' natural host plants contain pyrrolizidine alkaloids or not, these species were found to possess an oxidizing enzyme. This oxygenase appears to be specific to pyrrolizidine alkaloids: [³H]Atropine and [¹⁴C]nicotine, two alkaloids not related to pyrrolizidine alkaloids, were neither stored nor N-oxidized by any of the tested species. One species, L. australis, that strictly avoids pyrrolizidine alkaloids behaviorally, exhibited a lack of adaptations to pyrrolizidine alkaloids on a physiological level as well. After injection of tertiary [¹⁴C]senecionine, beetles of this species neither N-oxidized nor stored the compounds, in contrast to L. jacobaeae, an adapted species that underwent the same treatment. L. jacobaeae demonstrated the same efficiency in N-oxidation and storage when fed or injected with tertiary [¹⁴C]senecionine.Communicated by G. Heldmaier     

Alkaloids from Galanthus rizehensis

Two new Amaryllidaceae alkaloid N-oxides, incartine N-oxide (1) and lycorine N-oxide (2) together with one β-carboline alkaloid, 1-acetyl-β-carboline (3) and six known alkaloids namely, incartine (4), N-trans feruloyltyramine (5), lycorine (6), O-methylnorbelladine (7), vittatine (8) and 11-hydroxyvittatine (9) were isolated from Galanthus rizehensis Stern (Amaryllidaceae). The structures of the alkaloids were elucidated by spectroscopic analyses (UV, IR, MS, 1D and 2D NMR). Acetylcholinesterase inhibitory activity potentials of the compounds were also determined.