Evaluation of aerial parts of Echium angustifolium on ciguatoxins toxicity using molecular modeling and albino mice models
- MOJ Anatomy & Physiology
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Inass A Sadawe,1 Amira A Gbaj,2 Abdelraouf O Algheryane,3 Nisreen H Meiqal,1 Salah M Bensaber,1 Abdulathim AA Alshoushan,4 Halima A Gbaj,1 Massaud Salem Maamar,5 Anton Hermann,6 Abdul M Gbaj1
Abstract
Ciguatoxin (CTX) is a polyether neurotoxin compound produced by microalgae (dinoflagellate, Gambierdiscus spp). The toxin is accumulated and transformed throughout the sea food chain causing many life-threatening neurological problems in Libya and other Mediterranean and North African countries and eventually may cause death.
The plant species Echium angustifolium which is locally known as “Hannet Al-Aggrab” contains pyrrolizidine alkaloids, phenolic acid derivatives, flavonoids and other constituents that are known for their numerous biological activities. For treatments of ciguatera fish poisoning the plant has not been studied so far in the Mediterranean and North Africa regions. In the present study, Echium angustifolium aqueous extract was evaluated for its ability to reduce or revoke the effect of ciguatoxins in mice. Molecular docking and in vivo animal studies were performed in order to determine the potential effect of Echium angustifolium aqueous extract against ciguatoxicity. The content of Echium angustifolium extract was evaluated using molecular modeling against ciguatoxin on sodium (Na+) and potassium (K+) voltage-gated channels. Hesperetin was found the most active compounds with a Gibbs energy of -8.5Kcal/mol. For K+ voltage-gated channels was ellagic acid which was the most active compounds with a Gibbs energy of -9.0Kcal/mol. Our results revealed that Echium angustifolium constituents form hydrogen bonds with active sites of Na+ and K+ channels and protect the mice from ciguatoxin toxicity with a statistically significant difference of the extract compared to controls with p value less than 0.01. We propose that Echium angustifolium constituents can be used to prevent ciguatoxin toxicity. Further chemical synthesis of analogues and in vivo studies will be necessary to substantiate the obtained results.
Keywords
ciguatera fish poisoning, ciguatoxin, neurotoxin, molecular modeling, Na+, k+ channels, hesperetin, ellagic acid, results, toxicity, contaminated fish, adequate concentration, biosynthesized, herbivorous fish, food chain, seafood products, action potentials
