Toxicity of plant extracts containing pyrrolizidine alkaloids using alternative invertebrate models.

Pyrrolizidine alkaloids (PAs) are a widespread class of hepatotoxic heterocyclic organic compounds found in approximately 3% of world flora. Some PAs have been shown to have genotoxic and carcinogenic effects. The present study focuses on the toxicity effects of four dry extracts obtained from medicinal plants (Senecio vernalis, Symphytum officinale, Petasites hybridus and Tussilago farfara), on two aquatic organisms, Artemia salina and Daphnia magna, and the correlation with their PAs content. A new GC­MS method, using a retention time (TR)­5MS type capillary column was developed. PAs Kovats retention indices, for this type of column were computed for the first time. The lethal dose 50% (LC50) values for the two invertebrate models were correlated (Pearson 's coefficient, >0.9) and the toxicity was PA concentration-dependent, for three of the four extracts. All tested extracts were found to be toxic in both aquatic organism models. The results can be used to develop a GC­MS validated method for the assay of PAs in medicinal plants with a further potential application in the risk assessment study of PAs toxicity in humans.

Oral toxicity study of certain plant extracts containing pyrrolizidine alkaloids.

Pyrrolizidine alkaloids (PAs) are a class of toxic compounds which are found in plants. Poisoning caused by these toxins is associated with acute and chronic liver damage. Tussilago farfara (coltsfoot), Petasites hybridus (common butterbur), Senecio vernalis (eastern groundsel) and Symphytum officinale (comfrey) are traditional phytotherapic species, which beside the therapeutic bioactive compounds contain PAs. The aim of the paper was to assess the safety of some dry extracts obtained from these species. For the determination of acute toxicity, Organization for Economic Cooperation and Development (OECD) Guideline No. 423 was used. For the determination of repeated dose oral toxicity, Senecionis vernalis herba and Symphyti radix extracts (250 mg÷kg) were administrated, by gavage, for 28 days, and their effects on animal weight, liver and biliary functions, hepatic tissue and oxidative stress were investigated. After the acute toxicity testing, the dry extracts were placed in the GHS Category V (LD50>5000 mg÷kg, p.o.). For the subacute toxicity testing, no death or any signs of toxicity were observed. Also, no significant differences in biochemical parameters were observed between control and treated groups. The observed histopathological lesions were non-specific and were not consistent with the data reported in the literature for PAs exposure. In conclusion, the administration for 28 days, of the tested extracts, in a dose which correspond to a PAs concentration over the limits imposed in some countries, produced no hepatic and biliary toxic effects. Further studies, extended over a longer period of time, are needed in order to determine the safety of plant extracts containing PAs.

Comparative evaluation of short-term toxicity of inorganic arsenic compounds on Artemia salina.

The study aimed to assess the short-term effects exerted by two inorganic arsenic species (arsenite and arsenate) on Artemia salina after 24, 48 and 72 h. The dose-lethality curves obtained indicate that the lethality induced by arsenite was higher than by arsenate. The lowest observed effect concentration for arsenite (0.5 µg/mL) is similar with the no observed effect concentration for arsenate, thus indicating that the toxicity of arsenite is higher compared with arsenate. Also, the lethal concentration 50 values confirm that arsenite induced about 1.24-fold higher toxicity than arsenate at 24 h and about three-fold higher toxicity at 48 h and 72 h of exposure. Both LC50 (lethal concentration 50) values are indicating negligible effects exhibited by arsenic at this trophic level after short-term exposure. The predicted no effect concentration in the surface aquatic compartment corresponds to 10.38 µg/L, similar to the limit imposed by Directive 98/83/EC.