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Review
. 2021 Aug;41(8):1166-1179.
doi: 10.1002/jat.4112. Epub 2020 Nov 25.

α-Asarone, β-asarone, and γ-asarone: Current status of toxicological evaluation

Thomas Uebel  1 Lena Hermes  1 Sabrina Haupenthal  1 Lena Müller  1 Melanie Esselen  1
Affiliations
Review

α-Asarone, β-asarone, and γ-asarone: Current status of toxicological evaluation

Thomas Uebel et al. J Appl Toxicol. 2021 Aug.

Abstract

Asarone isomers are naturally occurring in Acorus calamus Linné, Guatteria gaumeri Greenman, and Aniba hostmanniana Nees. These secondary plant metabolites belong to the class of phenylpropenes (phenylpropanoids or alkenylbenzenes). They are further chemically classified into the propenylic trans- and cis-isomers α-asarone and β-asarone and the allylic γ-asarone. Flavoring, as well as potentially pharmacologically useful properties, enables the application of asarone isomers in fragrances, food, and traditional phytomedicine not only since their isolation in the 1950s. However, efficacy and safety in humans are still not known. Preclinical evidence has not been systematically studied, and several pharmacological effects have been reported for extracts of Acorus calamus and propenylic asarone isomers. Toxicological data are rare and not critically evaluated altogether in the 21st century yet. Therefore, within this review, available toxicological data of asarone isomers were assessed in detail. This assessment revealed that cardiotoxicity, hepatotoxicity, reproductive toxicity, and mutagenicity as well as carcinogenicity were described for propenylic asarone isomers with varying levels of reliability. The toxicodynamic profile of γ-asarone is unknown except for mutagenicity. Based on the estimated daily exposure and reported adverse effects, officials restricted or published recommendations for the use of β-asarone and preparations of Acorus calamus. In contrast, α-asarone and γ-asarone were not directly addressed due to a limited data situation.

Keywords: Acorus calamus; alkenylbenzene; carcinogenicity; genotoxicity; metabolism; mutagenicity; phenylpropanoid; phenylpropene.

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References

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