chanoclavine and elymoclavine

Nowadays psychoactive plants marketed as "legal highs" or "herbal highs" increase in popularity. One popular "legal high" are the seeds of the Hawaiian baby woodrose Argyreia nervosa (Synonym: Argyreia speciosa, Convolvolus speciosus). At present there exists no study on A. nervosa seeds or products, which are used by consumers. The quality of commercial available A. nervosa seeds or products is completely unknown. In the present study, a commercial available seed collection (five seeds labeled "flash of inspiration", FOI) was analyzed for ergot alkaloids together with an A. nervosa product (two preparations in capsule form, "druids fantasy", DF). For this purpose high performance liquid chromatography high resolution tandem mass spectrometry (HPLC-HRMS/MS) technique was employed. Besides the major ingredients such as lysergic acid amide (LSA) and ergometrine the well known A. nervosa compounds lysergol/elymoclavine/setoclavine, chanoclavine and the respective stereoisomers were detected in DF, while only LSA and ergometrine could be found in FOI. In addition, in DF lysergic acid was found, which has not been reported yet as ingredient of A. nervosa. In both products, DF as well as in FOI, LSA/LSA-isomers were dominant with 83-84% followed by ergometrine/ergometrinine with 10-17%. Therefore, LSA, followed by ergometrine/ergometrinine, could be confirmed to be the main ergot alkaloids present in A. nervosa seeds/products whereas the other ergot alkaloids seemed to be of minor importance (less than 6.1% in DF). The total ergot alkaloid amounts varied considerably between DF and FOI by a factor of 8.6 as well as the LSA concentration ranging from 3 μg (lowest amount in one FOI seed) to approximately 34 μg (highest amount in one DF capsule). Among the FOI seeds, the LSA concentration varied from approximately 3-15 μg per seed. Thus, the quality/potency of seeds/preparations depends on the amount of ergot alkaloids and the intensity of an expected trip is totally unpredictable.

Topics: Alkaloids; Chromatography, Liquid; Convolvulus; Ergolines; Ergonovine; Humans; Indoles; Lysergic Acid Diethylamide; Molecular Structure; Psychotropic Drugs; Seeds; Tandem Mass Spectrometry

In submerged Claviceps cultures the activity of hydroxymethylglutaryl-CoA reductase preceded the increase of alkaloid production and of sterol content. During the first alkaloid phase, cell mevalonate was involved in the biosynthesis of both alkaloids and steroids. In the second production phase, it was predominantly used for alkaloid synthesis. Hydroxymethylglutaryl-CoA reductase appears to be a suitable target for physiological manipulation to increase clavine alkaloid yields.

Topics: Claviceps; Ergolines; Ergot Alkaloids; Hydroxymethylglutaryl CoA Reductases; Sterols

L-Tryptophan did not exert any influence on peptide alkaloid formation in an ergotamine and in an ergosine-accumulating C. purpurea strain. A different picture was observed in a series of related C. purpurea strains. Tryptophan showed a slight stimulatory effect on the ergotoxine producer Pepty 695/S. A blocked mutant of it, designated as Pepty 695/ch which was able to accumulate secoclavines gave similar results. In a high-yielding elymoclavine strain Pepty 695/e, the progeny of the former one, tryptophan up to a concentration of 25 mM stimulated remarkably clavine biosynthesis. Furthermore, tryptophan could overcome the block of synthesis by inorganic phosphate. Increased specific activities of chanoclavine cyclase but not DMAT synthetase were observed in cultures of strain Pepty 695/e supplemented with tryptophan. 5-Methyltryptophan and bioisosteres of tryptophan were ineffective in alkaloid stimulation. These results are compared with those obtained with the grass ergot strain SD 58 and discussed with the relation to other induction phenomena.

Topics: Chemical Phenomena; Chemistry; Claviceps; Culture Media; Ergolines; Ergot Alkaloids; Mutation; Phosphates; Stereoisomerism; Tryptophan