Вплив десинхронозу на маркери окисного стресу
та стан гліальних проміжних філаментів головного мозку щурів
Effect of desynchronosis on oxidative stress biomarkers and the state of glial intermediate filaments in the brains of rats subject to aging
Author(s): S. Kyrychenko, N. ChernyshenkoSubject(s): Sociobiology
Published by: Дніпропетровський національний університет імені Олеся Гончара
Keywords: constant lighting; lipid peroxidation; glutathione; aging; melatonin; glial fibrillary acidic protein; GFAP;
Summary/Abstract: Desynchronosis may be the cause of many diseases. Oxidative stress plays an important role in the pathogenesis of various diseases. The present study investigates the effect of constant light on biomarkers of oxidative stress and content of glial intermediate filaments protein in the brains of old rats. We found that desynchronos is led to development of oxidative stress in the hippocampus, cerebral cortex and cerebellum of old rats. Prolonged continuous lighting led to an increase in the content of TBA-reactive products in all studied regions of the brains of old rats. This indicates an activation of lipid peroxidation and oxidative stress. Significant changes in the content of TBA-reactive products were found in the departments responsible for the functions of the higher nervous activity, particularly in the hippocampus and cerebral cortex. The level of restored glutathione in all three regions of the brain decreased in the group of rats kept under constant illumination in comparison with the control group. The results of the indicators of locomotor and orienting-investigative activity of the animals in the "open field" test revealled changes in the indices for desynchronosis. This showed a reduction in locomotor activity, inhibition of exploratory activity and development of emotional stress. In the brains of old rats kept under constant illumination a significant increase in the content of glial fibrillary protein (GFAP) was shown. There was a significant increase in the intensity of the polypeptide zone 49 kDa in the filamentous and soluble fraction of the cerebellum and hippocampus. This fact indicates that desynchronosis activates fibrillogenesis in glial cells. At the same time, there is degradation of polypeptides GFAP with Mr in the field of 46 kDa. Melatonin is a universal adaptogen that regulates the function of many body systems. The amount of melatonin which is synthesized depends on the illumination mode. Violation of the global mode reduces the amount of melatonin and leads to the development of desynchronosis, which may be the cause of many diseases. The administration of melatonin helped reverse the changes – raising the level of restored glutathione and preventing the growth of the content of peroxidation products and indices of "open field" test, and also decreasing the degradation of GFAP and the amount of protein. The results indicate the protective effect of melatonin, showing reductions in glial reactivity and in the level of oxidative stress in the brains of old rats subject to desynchronosis.
Journal: Biosystems Diversity
- Issue Year: 24/2016
- Issue No: 2
- Page Range: 540-545
- Page Count: 6
- Language: Ukrainian