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Alseis yucatanensis: a natural product from Belize that exhibits multiple mechanisms of vasorelaxation.

Tipo de material: TextoTextoSeries ; Journal of ethnoPharmacology, 92(2-3), p.297-302, 2004Trabajos contenidos:
  • Slish, D. F
  • Arvigo, R
  • Balick, M. J
Tema(s): Recursos en línea: Resumen: An aqueous extract of the bark of Alseis yucatanensis was studied to determine its mechanism of action in the relaxation of endothelium-denuded rat aortic tissues. The extract relaxed both norepinephrine (NE)and KCl-contracted vessels, with ED50's of 0.12 and 1.73 mg/mL, respectively. In NE-contracted vessels, two phases of relaxation were evident which were separated in both time and dose range. At high concentrations, a rapid relaxation was seen that was due to the blocking of internal (ED50=0.49 mg/mL)and external (ED50=2.34 mg/mL)calcium channels. A second, slowly developing (i.e., long-term)relaxation to baseline was seen at lower concentrations. The time to complete relaxation was dose-dependent. This long-term response was not seen in KCl-contracted vessels, was prolonged by TEA, and could be reversed by the addition of KCl to the bath. These data suggest that the long-term relaxation is due to the opening of potassium channels.
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An aqueous extract of the bark of Alseis yucatanensis was studied to determine its mechanism of action in the relaxation of endothelium-denuded rat aortic tissues. The extract relaxed both norepinephrine (NE)and KCl-contracted vessels, with ED50's of 0.12 and 1.73 mg/mL, respectively. In NE-contracted vessels, two phases of relaxation were evident which were separated in both time and dose range. At high concentrations, a rapid relaxation was seen that was due to the blocking of internal (ED50=0.49 mg/mL)and external (ED50=2.34 mg/mL)calcium channels. A second, slowly developing (i.e., long-term)relaxation to baseline was seen at lower concentrations. The time to complete relaxation was dose-dependent. This long-term response was not seen in KCl-contracted vessels, was prolonged by TEA, and could be reversed by the addition of KCl to the bath. These data suggest that the long-term relaxation is due to the opening of potassium channels.

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