Abstract
Pyrrolizidine alkaloids (PAs) are naturally occurring genotoxic compounds, and PA-containing plants can pose a risk to humans through contaminated food sources and herbal products. Upon metabolic activation, PAs can form DNA adducts, DNA and protein cross links, chromosomal aberrations, micronuclei, and DNA double-strand breaks. These genotoxic effects may induce gene mutations and play a role in the carcinogenesis of PAs. This study aims to predict in vivo genotoxicity for two well-studied PAs, lasiocarpine and riddelliine, in rat using in vitro genotoxicity data and physiologically based kinetic (PBK) modelling-based reverse dosimetry. The phosphorylation of histone protein H2AX was used as a quantitative surrogate endpoint for in vitro genotoxicity of lasiocarpine and riddelliine in primary rat hepatocytes and human HepaRG cells. The in vitro concentration–response curves obtained from primary rat hepatocytes were subsequently converted to in vivo dose–response curves from which points of departure (PoDs) were derived that were compared to available in vivo genotoxicity data. The results showed that the predicted PoDs for lasiocarpine and riddelliine were comparable to in vivo genotoxicity data. It is concluded that this quantitative in vitro-in silico approach provides a method to predict in vivo genotoxicity for the large number of PAs for which in vivo genotoxicity data are lacking by integrating in vitro genotoxicity assays with PBK modelling-facilitated reverse dosimetry.
Highlights
Pyrrolizidine alkaloids (PAs) are secondary metabolites that plants produce against insects (Fu et al 2004)
The primary rat hepatocytes appear more sensitive towards the γH2AX induction-related genotoxicity of lasiocarpine and riddelliine than the HepaRG cells, since the BMC10 values for γH2AX induction-related genotoxicity for lasiocarpine and riddelliine derived from primary rat hepatocytes were, respectively, 105- and 31-fold lower than those obtained in the HepaRG cells
The aim of the present study was to assess whether the developed physiologically based kinetic (PBK) modelling-facilitated reverse dosimetry could adequately predict in vivo dose–response curves for genotoxicity of lasiocarpine and riddelliine in rats
Summary
Pyrrolizidine alkaloids (PAs) are secondary metabolites that plants produce against insects (Fu et al 2004). More than 660 PAs and their N-oxides have been identified from more than 6000 plants, and half of them are hepatotoxic (Fu et al 2010; Wiedenfeld 2011). Human exposure to PAs mainly results from PA containing foods, such as herbal teas, herbal medicines, milk, and honey (Bodi et al 2014; EFSA 2016, 2017; Kempf et al 2010; Mathon et al 2014; Roeder 2000). Chronic exposure to PAs is of concern because of their genotoxicity and carcinogenicity (EFSA 2011). 1,2-unsaturated PAs are hepatotoxic and considered to be genotoxic carcinogens, posing a potential risk to human health (Mori et al 1985)
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