A Computational Inter-Species Study on Safrole Phase I Metabolism-Dependent Bioactivation: A Mechanistic Insight into the Study of Possible Differences among Species

Safrole, a 162.2 Da natural compound belonging to the alkenylbenzenes class, is classified as a possible carcinogen to humans by IARC (group IIB) and has proven to be genotoxic and carcinogenic to rodents. Despite its use as a food or feed additive, it is forbidden in many countries due to its docum...

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Bibliographic Details
Published in:Toxins 2023-01, Vol.15 (2), p.94
Main Authors: Pedroni, Lorenzo, Louisse, Jochem, Punt, Ans, Dorne, Jean Lou C M, Dall'Asta, Chiara, Dellafiora, Luca
Format: Article
Language:English
Subjects:
alkenylbenzenes
Allylbenzene Derivatives
Animals
Biocompatibility
Biological activity
Carcinogens
Carcinogens - metabolism
Chemical properties
Chickens - metabolism
Computer applications
CYP1A2
CYP2A6
Cytochrome
Cytochrome P-450 Enzyme System - metabolism
Cytochrome P450
Cytochromes P450
Dogs
Essential oils
estragole
Feed additives
Feeds
Food
Food products
Genotoxicity
Health aspects
Herbs
Humans
Ligands
Liver
Metabolites
Mice
Molecular docking
Molecular dynamics
Molecular modelling
Oils & fats
Organic compounds
Physiological aspects
Rabbits
Rats
Safrole
Safrole - metabolism
Sheep
Spices
Swine
Toxicity
Toxicology
Workflow
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Summary:Safrole, a 162.2 Da natural compound belonging to the alkenylbenzenes class, is classified as a possible carcinogen to humans by IARC (group IIB) and has proven to be genotoxic and carcinogenic to rodents. Despite its use as a food or feed additive, it is forbidden in many countries due to its documented toxicity; yet, it is still broadly present within food and feed and is particularly abundant in spices, herbs and essential oils. Specifically, safrole may exert its toxicity upon bioactivation to its proximate carcinogen 1'-hydroxy-safrole via specific members of the cytochrome P450 protein family with a certain inter/intra-species variability. To investigate this variability, an in-silico workflow based on molecular modelling, docking and molecular dynamics has been successfully applied. This work highlighted the mechanistic basis underpinning differences among humans, cats, chickens, goats, sheep, dogs, mice, pigs, rats and rabbits. The chosen metric to estimate the likeliness of formation of 1'-hydroxy-safrole by the species-specific cytochrome P450 under investigation allowed for the provision of a knowledge-based ground to rationally design and prioritise further experiments and deepen the current understanding of alkenylbenzenes bioactivation and CYPs mechanics. Both are crucial for a more informed framework of analysis for safrole toxicity.
ISSN:2072-6651
2072-6651
DOI:10.3390/toxins15020094