Neuroprotective effects of kolaviron against psycho-emotional stress induced oxidative brain injury in rats: The whisker removal model.

Abstract

Background: The study investigated the neuroprotective potentials of kolaviron (a biflavonoid complex of Garcinia kola) against psycho-emotional stress induced oxidative brain injury in Wistar rats.

Methods: Twenty-four adult Wistar rats (180-220g) randomly divided into four groups (1-1V,n=6) were used for the study . Group 1 served as control (non stressed), group 11 consisted of stressed rats induced by complete removal' of the whiskers around the mouth and the nose without anaesthesia. The rats in group 111 were pre- treated with 200mg/kg kolaviron per oral (p.o), daily for seven days before being subjected to the stress procedure' while group 1V rats also had 200mg/kg oral kolaviron alone without being stressed. The animals were later euthanized by cervical dislocation, cerebellum and frontal cortex removed and then subjected to biochemical and histopathological analysis.

Results: Whisker removal significantly(p<0.05) increased lipid peroxidation (U/mg protein) in the cerebellum (3.82±0.22 vs 6.50±0.41) and the cerebral cortex (14.57±2.50 vs 30.11± 4.70) compared with their controls, it also produced significant reductions 'in catalase activities (U/min/mg protein) in cerebellum (169.65±11.02 vs 87.72, p <0.001) and the cerebral cortex (264.5 ± 40.57 vs 122.71 ± 15.70,p< 0.001). Glutathione levels (U/mg protein) were similarly significantly (P<0.001) reduced in both cerebellum (132.40 ± 4.81 vs 37.60 ± 1.50) and the cerebral cortex (370.42 ±20.51 vs 120.51± 25.35) compared with their corresponding controls. There were also histological abnormalities like cellular degeneration and necrosis in both the frontal cortex and the cerebellum of the stressed rats. Pre- treatment with kolaviron not only reversed these biochemical alterations but also significantly attenuated these observed histopathological changes.

Conclusion: The present study demonstrated the neuroprotective potential of kolaviron against psycho-emotional stress-induced oxidative brain injury through the inhibition of oxidative stress.