In Vitro Screening of Plant Extract: Neurotoxic Effects of the Sierras de Córdoba, Argentina Plant Extracts

To investigate the neuro toxic effect of some “Si e r r a s de Córdoba ” plant extracts, three plants from this place were extracted with ethylic ether, ethanol and milliQ-water. The effects of different extracts on early events in the normal development of neuron were studied using cultured embryon...

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Detalles Bibliográficos
Autores: Landa, Carlos Alberto, Sanchez, Monica Silvina
Tipo de recurso: artículo
Estado:Versión publicada
Fecha de publicación:2010
País:Argentina
Institución:Consejo Nacional de Investigaciones Científicas y Técnicas
Repositorio:CONICET Digital (CONICET)
Idioma:inglés
OAI Identifier:oai:ri.conicet.gov.ar:11336/189947
Acceso en línea:http://hdl.handle.net/11336/189947
Access Level:acceso abierto
Palabra clave:Sierras de Cordoba extract plants
In vitro neurotoxicity
Early neuronal development
LDH assay
https://purl.org/becyt/ford/1.6
https://purl.org/becyt/ford/1
Descripción
Sumario:To investigate the neuro toxic effect of some “Si e r r a s de Córdoba ” plant extracts, three plants from this place were extracted with ethylic ether, ethanol and milliQ-water. The effects of different extracts on early events in the normal development of neuron were studied using cultured embryonic rat hippocampal cells, which develop in vitro in a stereotypical sequence of events that mimics their development in vivo. In addition, the neuron viability was evaluated using lactate dehydrogenase (LDH) assay. Two ethylic ether, two aqueous extracts from Thelesperma Megapotamicum and Armeniaca Vulgaris and one ethanolic on early events in the normal development of neuron were studied using cultured embryonic rat hippocampal cells, which develop in vitro in a stereotypical sequence of events that mimics their development in vivo. In addition, the neuron viability was evaluated using lactate dehydrogenase (LDH) assay. Two ethylic ether, two aqueous extracts from Thelesperma Megapotamicum and Armeniaca Vulgaris and one ethanolic ethylic ether, ethanol and milliQ-water. The effects of different extracts on early events in the normal development of neuron were studied using cultured embryonic rat hippocampal cells, which develop in vitro in a stereotypical sequence of events that mimics their development in vivo. In addition, the neuron viability was evaluated using lactate dehydrogenase (LDH) assay. Two ethylic ether, two aqueous extracts from Thelesperma Megapotamicum and Armeniaca Vulgaris and one ethanolicextracts from Thelesperma Megapotamicum and Armeniaca Vulgaris and one ethanolic extract (Armeniaca Vulgaris) showed no toxicity a g a i n s t embryonic rat hippocampal cells in culture. The ethanolic extract of Thelesperma Megapotamicum showed a slight (but no significative) toxicity against the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect The ethanolic extract of Thelesperma Megapotamicum showed a slight (but no significative) toxicity against the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect embryonic rat hippocampal cells in culture. The ethanolic extract of Thelesperma Megapotamicum showed a slight (but no significative) toxicity against the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect he ethanolic extract of Thelesperma Megapotamicum showed a slight (but no significative) toxicity against the same neuronal cells. While, the three extract studied of Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect Aristolochia Stuckertii Speg, at both doses, showed high toxicity against the rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect rat hippocampal cells in culture. Taken together, our results describes, for the first time, that Aristolochia Stuckertii Speg have neurotoxic effects. Further intensive studies are required to clarify how Aristolochia Stuckertii Speg produces this effect.