Cardioprotective potential of Irish macroalgae: generation of glycine betaine and dimethylsulfoniopropionate containing extracts by accelerated solvent extraction.

Accelerated solvent extraction (ASE®) was used to generate 18 macroalgal extracts from Irish seaweeds. The glycine betaine and dimethylsulfoniopriopionate content of the generated ASE® extracts were estimated using (1)H-NMR and confirmed for selected extracts using ultra performance liquid chromatography and mass spectrometry. Dimethylsulfoniopriopionate was only identified in the ASE® extract generated from Codium fragile ISCG0029. Glycine betaine was identified in the ASE® extract generated from Ulva intestinalis ISCG0356 using (1)H-NMR. Mass spectrometry analysis found that the seaweed species Cytoseira nodicaulis ISCG0070, Cytoseira tamariscofolia ISCG0283, and Polysiphonia lanosa ISCG0462 also had a glycine betaine content that ranged from 1.39 ng/ml to 105.11 ng/ml. Generated ASE® macroalgal extracts have potential for use as functional food ingredients in food products.

Evaluation of Salacia species as anti-diabetic natural resources based on quantitative analysis of eight sulphonium constituents: a new class of α-glucosidase inhibitors.

INTRODUCTION: Stems and roots of Salacia genus plants have been used in Ayurveda as a specific remedy for early stage diabetes. Previous investigations identified four sulphonium sulphates, that is, salacinol (1), kotalanol (3), ponkoranol (5) and salaprinol (7), as the compounds responsible for the anti-diabetic activity. Their desulphonates (2, 4, 6 and 8) were also isolated as active constituents. Two separate quantitative analytical protocols, that is, for 1 and 3 and for 2 and 4, have been developed recently. OBJECTIVE: To: validate the two analytical protocols with respect to all eight sulphoniums; evaluate the quality of a variety of Salacia samples collected in different geographical regions, that is, Thailand, Sri Lanka and India; and determine their distribution in each part of the plant, that is, stems/roots, leaves and fruits. METHODS: Analyses of four sulphonium sulphates in 32 Salacia extracts were carried out on an Asahipak NH2P-50 column, and those of the corresponding desulphonates were conducted on an Inertsil ODS-3 column. RESULTS: Neokotalanol (4) was the major constituent in Salacia samples from Thailand, whereas 1 was the primary constituent in extracts of the stems/roots of plants from Sri Lanka and India. These sulphoniums were only present in trace amounts in leaves and fruits of the plants. CONCLUSION: Two analytical protocols were successfully applied to analyse 32 Salacia samples, and revealed that sulphoniums (1-8) had characteristic distributions due to the plant part and/or due to geographical region.

Identification of isethionic acid and other small molecule metabolites of Fragilariopsis cylindrus with nuclear magnetic resonance.

Nuclear magnetic resonance (NMR) spectroscopy has been used to obtain metabolic profiles of the polar diatom Fragilariopsis cylindrus, leading to the identification of a novel metabolite in this organism. Initial results from an ongoing metabolomics study have led to the discovery of isethionic acid (2-hydroxyethanesulfonic acid, CAS: 107-36-8) as a major metabolite in F. cylindrus. This compound is being produced by the organism under normal culture conditions. This finding is the first report of a diatom producing isethionic acid. In addition to isethionic acid, four other metabolites, dimethylsulfoniopropionate (DMSP), betaine, homarine, and proline were present and may serve as osmoprotectants in F. cylindrus. NMR-based metabolite profiles of F. cylindrus were obtained along a growth curve of the organism. The relative concentration levels of the five metabolites were monitored over a growth period of F. cylindrus from 18 to 25 days. All showed an increase in relative concentration with time, except for proline, which began to decrease after day 21.

Capillary zone electrophoresis method for the separation of glucosidase inhibitors in extracts of Salacia reticulata, a plant used in ayurvedic treatments of type-2 diabetes.

A simple and reproducible capillary-zone electrophoresis (CZE) method was developed for the separation and quantitation of sulfonium-ion-containing compounds isolated from plants of the Salacia genus which are traditionally used in Ayurvedic medicine for the treatment of type-2 diabetes. The method sufficiently resolved four different compounds with confirmed glucosidase inhibitory activity, namely, salacinol, ponkoranol, kotalanol and de-O-sulfonated kotalanol. Separation could be achieved in less than 9 min, and calibration curves showed good linearity. Detection limits were determined to be in the low mug/mL range. This method was used to demonstrate that de-O-sulfonated kotalanol isolated from natural sources has identical ionic mobility to a synthetic standard. Furthermore, new extraction conditions were developed by which the zwitterionic compounds (salacinol, ponkoranol, and kotalanol) could be separated from de-O-sulfonated kotalanol in a single solid-phase extraction (SPE) procedure. The extraction gave reproducibly high recoveries and was used to process four commercial Salacia extracts for CZE analysis to reduce the complexity of resulting electropherograms and to facilitate the detection of the four inhibitors in question. De-O-sulfonated kotalanol was detected in two of four Salacia samples while ponkoranol was present in all four. A comparison of all samples tested demonstrated that they had remarkably similar patterns of peaks, suggesting that this CZE method may be useful in the chemical fingerprinting of Salacia-containing products.

Dogger Bank Itch revisited: isolation of (2-hydroxyethyl) dimethylsulfoxonium chloride as a cytotoxic constituent from the marine sponge Theonella aff. mirabilis.

(2-Hydroxyethyl) dimethylsulfoxonium chloride (1), the well-known causative agent of Dogger Bank Itch, has been isolated as a cytotoxic constituent from the marine sponge Theonella aff. mirabilis. The structure of 1 was determined by spectral and X-ray crystallographic analyses.

Evidence that the putative compatible solute 5-dimethylsulfoniopentanoate is an extraction artifact.

A novel gas chromatography-mass spectrometry method for analyzing sulfonium compounds as their S-demethylated silyl derivatives has clarified the origin of 5-dimethylsulfoniopentanoate. This compound, previously reported from flowers of Diplotaxis tenuifolia (L.) DC. (Cruciferae), is generated from glucoerucin during treatment with hot 6 N HCl. Glucoerucin is the characteristic glucosinolate of D. tenuifolia.

Lectinas, agentes antihemostáticos y compuestos positivos al reactivo de Dragendorff en algas marinas de Venezuela y Túnez / Lectins, antihaemostatic agents and dragendorff positive compounds in marine algae from Venezuela and Tunibia

Las algas marinas recolectadas en Túnez y Venezuela han sido analizadas buscando la presencia de lectinas, agentes antihemostáticos y compuestos Dragendorff positivo. De 34 especies estudiadas, la actividad de las lectinas fue demostrada en los extractos de 14 de ellas. De éstas, las especies consideradas de más valor para estudios posteriores fueron Halimeda tuna, H.opuntia, Bryotamnion triquetum, B. seaforthii, Codium isthmocladum y Centroceras clavulatum. La actividad anticoagulante fue detectada en extractos de 26 de las especies analizadas. El extracto con más actividad de potencia inhibidora fue el de Centroceras clavulatum, pero el de Codium isthmocladum también se consideró interesante. Once especies fueron estudiadas por su contenido de compuestos Drangendorff positivo. Tanto las betainas como el compuesto de sulfonio terciario del tipo 3-dimetilsulfoniopropinato (DMSP) o una mezcla de DMSP y una betaina fueron aisladas y caracterizadas en todas las especies analizadas

Dogger bank itch. 4. An eczema-causing sulfoxonium ion from the marine animal, Alcyonidium gelatinosum [Bryozoa].

Repeated exposure to the marine bryozoan, Alcyonidium gelatinosum, frequently provokes an eczematous allergic contact dermatitis known as the "Dogger Bank Itch". The dermatitis, representing a severe occupational disease, is especially widely distributed among trawlermen working in the Dogger Bank area in the North Sea. The allergy is shown to belong to the type of cell-mediated hypersensitivity. The hapten has been identified as the (2-hydroxyethyl)dimethylsulfoxonium ion. The isolation, structure determination and synthesis are discussed.