AI Article Synopsis
- Daphnetoxin is a diterpene found in Thymelaeaceae plants and is more toxic to mitochondria than daphnoretin, which is a bis-coumarin from multiple plant families.
- Both compounds show potential anti-cancer properties, but exhibit toxicity to Wistar rat liver mitochondria and all tested cell lines at concentrations over 100 microM.
- The study found that while both compounds inhibited cell proliferation, the mechanisms may be partially mitochondrial-independent, suggesting a need for further evaluation of their safety and pharmacological benefits.
Article Abstract
Daphnetoxin is a daphnane type orthoester diterpene found exclusively in plants of the family Thymelaeaceae while daphnoretin, a bis-coumarin derivative that is the major constituent of the bark of some plants of this family, can also be found in Leguminosae and Rutaceae. These two compounds are recognized to have different biological effects, including a possible anti-cancer activity. The subject of the present research was to compare their mitochondrial toxicity and also investigate a possible selectivity towards tumor cell lines. Wistar rat liver mitochondria and three distinct cell lines were used to investigate compound-induced toxicity. The results indicate that both test compounds are toxic to isolated mitochondrial fractions, especially when used at concentrations higher than 100 microM. However, daphnetoxin presented the highest toxicity including increased proton leak in the inner mitochondrial membrane, increased induction of the mitochondrial permeability transition pore, inhibition of ATP synthase and inhibition of the mitochondrial respiratory chain. Both compounds also inhibited cell proliferation, regardless of the cell line used. Up to the maximal concentration tested in cells, no mitochondrial effects were detected by vital epifluorescence imaging, indicating that inhibition of cell proliferation may also originate from mitochondrial-independent mechanisms. The results warrant careful assessment of toxicity vs. pharmacology benefits of both molecules.
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| http://dx.doi.org/10.1016/j.tiv.2009.04.002 | DOI Listing |
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