Evaluación de la capacidad neutralizante de extractos de plantas de uso popular en Guatemala como antídotos para el envenenamiento por la mordedura de Bothrops asper / Neutralizing activities of ethanolic extracts of six plants traditionally used in Guatemala as antidotes for the envenomation caused by the snake Bothrops asper

Se determinó la capacidad de los extractos de seis plantas de uso etnomédico (Acacia hindsii, Aristolochia maxima, Cissampelos pareira, Hamelia patens, Piper peltatum y Sansevieria hyacinthoides) para neutralizar los efectos proteolítico y fosfolipasa A2 (PLA2) del veneno de Bothrops asper, la principal especie causante de envenenamiento en el país. Estos efectos, indicadores de la capacidad miotóxica, hemorrágica e inflamatoria del veneno, se evaluaron en ensayos controlados in vitro. Las plantas fueroncolectadas, secadas y extraídas por percolación con etanol. Los resultados demuestran que ninguno de los extractos posee actividad PLA2 o proteo-lítica intrínseca a las dosis estudiadas. Se determinó que tres de los extractos neutralizaron pobremente (< 50%) los efectos estudiados: S. hyacinthoides neutralizó 13.90 ± 6.41% del efecto PLA2 y P. peltatum y C. pareira el 32.98 ± 5.51% y 24.52 ± 7.45%, respectivamente, del efecto proteolítico. Por ello, ningún extracto se evaluó en pruebas de neutralización de la letalidad en ratones. Se concluye que no es recomendable el uso aislado de estas plantas en el tratamiento del envenenamiento por mordedura de B. asper, aunque posiblemente las que demostraron alguna actividad puedan resultar potenciadas al usarse en combinación con otras plantas, como se hace en las recetas tradicionales. Dada la complejidad de los componentes del veneno y sus efectos fisiopatológicos, falta investigar la capacidad de las plantas estudiadas para neutralizar las coagulopatías, edema y miotoxicidad producidas durante el envenenamiento.

Many plants are reported to be used in Guatemalan traditional medicine as antidotes against various effects of the snakebite; however, very few attempts have been made to evaluate their neutralizing capacity in controlled experiments. Six plants (Acacia hindsii, Cissampelos pareira; Hamelia patens, Piper peltatum, Sansevieria hyacinthoides and Aristolochia maxima) were evaluated in vitro for their ability to neutralize phospholipase A2 (PLA2) and proteolytic effects of the venom of Bothrops asper, the snake responsible for approximately half of the snakebite envenomations in Central America. These effects are indicatives of the ability of B. asper venom to produce myotoxicity, hemorrhage and inflammation. Plants were collected, dried and extracted by maceration with ethanol. After pre-incubation of several amounts of each extract with a challenge dose of venom, S. hyacinthoides demonstrated a low neutralizing capacity (< DE 50) of the PLA2 effect (13.90 ± 6.41%); C. pareira (32.98 ± 5.51%) and P. peltatum (24.52 ± 7.45%) neutralized less than 50% of the proteolytic effect. The results suggest that neither of the tested plants should be used individually to treat the main effects of B. asperenvenomation. However, the three low-active extracts might be potentiated when used in mixtures composed of several plants, as prepared by traditional healers. Given the complexity of the venom components and the multiple pathologic effects produced by B. asper envenomation, more tests are required to fully investigate the ability of this plants to neutralize the coagulant, fibrin(ogen)olytic, edematizing and myotoxic effects of the venom.

Effect of Percutaneous Laser Disc Decompression on Phospholipase A2 and Nerve Conduction Velocity in Rabbit with Prolapse of Intervertebral Disc / 中国康复理论与实践

@#Objective To explore the mechanism of percutaneous laser disc decompression (PLDD) for treating prolapse of intervertebral disc. Methods 15 rabbits were divided into 3 groups randomly: sham group, model group with PLDD treatment, model group without PLDD treatment. The nerve conduction velocity (NCV) of L6 nerve root and the activity of phospholipase A2 (PLA2) in the intervertebral disc of L5-6 were determined 2 weeks after the initial surgery. Results NCV in the group with PLDD was significantly faster than that in the group without PLDD (P<0.001); NCV in the group without PLDD was significantly lower than that in the sham group (P<0.001). The activity of PLA2 in the group with PLDD was significantly lower than that in the group without PLDD (P<0.001); The activity of PLA2 in the group without PLDD was significantly higher than that in the sham group (P<0.001). Conclusion The activity of PLA2 in the herniated discs is higher than that in normal discs, which result in NCV falls remarkably. The PLDD can reduces chemical factors such as PLA2.

Effect of matrine on PLA_2 activity of LPS-induced inflammatory rats and its mechanism / 中草药

Object To study the antiinflammatory effect of matrine and its active mechanism. Methods The matrine effects on activities of secretory phospholipase A 2 (sPLA 2) in peripheral serum and cytosolic phospholipase A 2 (cPLA 2) in leucocyte were measured with Escherichia coli membrane incorporated by arachidonic acid as the substrate; the Ca 2+ level of leucocyte was determined using Frua2 AM loading method, and the rat plantar swelling test was used to examine the antiinflammatory effect of matrine. Results One hour after ip 30 mg/mL matrine, the inhibitory rate of sPLA 2 activity was (81.9?1.8)% , cPLA 2 (28.4?6.0) %, while Ca 2+ concentration was (157.10?20.56) nmol/L which was 15.3% higher than that of the control. Plantar swelling test showed that matrine had a significant anti inflammatory effect. Conclusion Matrine is a novel PLA 2 inhibitor with anti inflammatory effect.