<i>Strophanthus sarmentosus</i> Extracts and the Strophanthus Cardenolide Ouabain Inhibit Snake Venom Proteases from <i>Echis ocellatus</i>

<i>Strophanthus sarmentosus</i> Extracts and the Strophanthus Cardenolide Ouabain Inhibit Snake Venom Proteases from <i>Echis ocellatus</i>

<i>Strophanthus sarmentosus</i> is recognised for various ethnomedicinal applications, including treatment after snakebites. However, only limited scientific evidence exists on its antivenomous capabilities. This study investigates the efficacy of methanol and ethylacetate extracts from...

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Bibliographic Details
Main Authors: Julius Abiola, Olapeju Aiyelaagbe, Akindele Adeyi, Babafemi Ajisebiola, Simone König
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Molecules
Subjects:
viper
cardenolides
metalloproteinase
plant extract
medicinal plant
snakebite
Online Access:https://www.mdpi.com/1420-3049/30/12/2625
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Summary:<i>Strophanthus sarmentosus</i> is recognised for various ethnomedicinal applications, including treatment after snakebites. However, only limited scientific evidence exists on its antivenomous capabilities. This study investigates the efficacy of methanol and ethylacetate extracts from <i>S. sarmentosus</i> leaves and roots against <i>Echis ocellatus</i> venom. A non-toxic range for the extracts was determined in rats, and assays were performed to test their anti-hemorrhagic and anti-hemolytic activity as well as their influence on venom-induced blood clotting. In all of these experiments, the extracts demonstrated significant positive effects equal to or better than antivenom. Moreover, the extracts strongly inhibited and even abolished the digestion of the vasoactive neuropeptide bradykinin by snake venom metalloproteinases. Strophantus plants are known for their high content of cardiac glycosides, one of which is the commercially available ouabain, that by itself also considerably inhibited venom-induced bradykinin cleavage. Although ouabain is only present in low amounts in <i>S. sarmentosus</i> when compared to other cardenolides of similar structure, it can be hypothesized that members of this substance class may also have inhibitory properties against venom proteases. <i>S. sarmentosus</i> additionally contains bioactive substances such as flavonoids, terpenoids, tannins, saponins, and alkaloids, which contribute to its protective effects. The study provides scientific data to explain the success of the traditional use of <i>S. sarmentosus</i> plant extracts as a first aid against envenomation in rural Africa.
ISSN:1420-3049

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