Neuromuscular junction is the main target for snakebites, which venoms act depending on the snake genus for paralyzing the prey (neurotoxicity) or for facilitating the digestion processes of the victim (myotoxicity...Neuromuscular junction is the main target for snakebites, which venoms act depending on the snake genus for paralyzing the prey (neurotoxicity) or for facilitating the digestion processes of the victim (myotoxicity), and also as a defense mechanism against predators. In the present study, a mouse neuromuscular apparatus was used for testing the hexane fraction of Casearia gossypiosperma plant, that showed the better antiophidian ability than dichloromethane, ethyl acetate and methanol fractions, against the irreversible paralysis induced by two, Bothrops jararacussu (Bjssu, 40 μg/mL) and Crotalus durissus terrificus (Cdt, 10 μg/mL) snake venoms. All fractions were obtained by liquid-liquid partition from the C. gossypiosperma hydroalcoholic lyophilized extract. The preliminary chromatographic profile of this plant showed phenols and flavonols as active constituents, whereas hexane fraction expressed mainly 13-sitosterol and quercetin. In spite of hexane fraction protection (≌95% and 48% against Bjssu and Cdt, respectively), isolately, only quercetin protected against the blockade-induced by Bjssu venom (65.5%). This study showed that hexane fraction acts against these snake venoms by a synergistic phytocomplex mechanism.展开更多
文摘Neuromuscular junction is the main target for snakebites, which venoms act depending on the snake genus for paralyzing the prey (neurotoxicity) or for facilitating the digestion processes of the victim (myotoxicity), and also as a defense mechanism against predators. In the present study, a mouse neuromuscular apparatus was used for testing the hexane fraction of Casearia gossypiosperma plant, that showed the better antiophidian ability than dichloromethane, ethyl acetate and methanol fractions, against the irreversible paralysis induced by two, Bothrops jararacussu (Bjssu, 40 μg/mL) and Crotalus durissus terrificus (Cdt, 10 μg/mL) snake venoms. All fractions were obtained by liquid-liquid partition from the C. gossypiosperma hydroalcoholic lyophilized extract. The preliminary chromatographic profile of this plant showed phenols and flavonols as active constituents, whereas hexane fraction expressed mainly 13-sitosterol and quercetin. In spite of hexane fraction protection (≌95% and 48% against Bjssu and Cdt, respectively), isolately, only quercetin protected against the blockade-induced by Bjssu venom (65.5%). This study showed that hexane fraction acts against these snake venoms by a synergistic phytocomplex mechanism.
