Purpose The toxicological significance of human exposures to angel's trumpet plants (Brugmansia and Datura species) in their native American and non-native regions (Asia, Africa, and Europe) was highlighted, and the poisoning potential of various plant parts was discussed. Methods Nearly 2500 cases of human plant exposures, reported to the Hungarian Toxicological Information Service between 2005 and 2017, were analyzed and compared to data of other toxicology centers in America, Asia and Europe, focusing on exposures to tropane alkaloid-containing plants. Results In America, Brugmansia and Datura were not among the 15 most common plant ingestions, but were responsible for 20% of the fatal outcomes in a 26-year period. In Asia, the anticholinergic toxidrome, related to Brugmansia and Datura, was among the most frequent plant-related intoxications, which included accidental ingestion, improper use of herbal medicines and plant abuse. In Europe, Brugmansia and Datura were among the top four plant taxa causing intoxications with major outcomes, being the leading plants ingested for their hallucinogenic properties, and accounted for 60% of abuse cases in Hungary in a 13-year period. Use of Brugmansia and Datura for criminal purposes has been reported from America, Asia and Europe. The concentrations of tropane alkaloids vary with the species, seasons and plant parts. Ingestion of the seeds and flowers has the highest toxicological significance, but exposure to the leaves and floral nectar can also cause intoxication. Conclusions Angel's trumpets have high toxicological significance both in their native and non-native regions, mainly due to their hallucinogenic property and accidental ingestion.
The family Solanaceae includes several melliferous plants, which tend to produce copious amounts of nectar. Floral nectar is a chemically complex aqueous solution, dominated by sugars, but minor components such as amino acids, proteins, flavonoids and alkaloids are present as well. This study aimed at analysing the protein and alkaloid profile of the nectar in seven solanaceous species. Proteins were examined with SDS-PAGE and alkaloids were analyzed with HPLC. The investigation of protein profile revealed significant differences in nectar-protein patterns not only between different plant genera, but also between the three Nicotiana species investigated. SDS-PAGE suggested the presence of several Nectarin proteins with antimicrobial activity in Nicotiana species. The nectar of all tobacco species contained the alkaloid nicotine, N. tabacum having the highest nicotine content. The nectar of Brugmansia suaveolens, Datura stramonium, Hyoscyamus niger and Lycium barbarum contained scopolamine, the highest content of which was measured in B. suaveolens. The alkaloid concentrations in the nectars of most solanaceous species investigated can cause deterrence in honeybees, and the nectar of N. rustica and N. tabacum can be considered toxic for honeybees.
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