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KMID : 0370220050490020168
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Yakhak Hoeji
2005 Volume.49 No. 2 p.168 ~ p.173
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Protective Effect of Sesaminol Glucosides on Memory Impairment and ¥â,¥ã-Secretase Activirt In Vivo
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À̼±¿µ/Lee SY
¼Õµ¿ÁÖ/ÇÏÅ¿/È«ÁøÅÂ/Son DJ/Ha TY/Hong JT
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Abstract
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Alzheimers disease(AD) is the most prevalent form of neurodegenerations associated with aging in human population. This disease is characterized by the extracellular deposition of beta-amyloid(A¥â)peptide in cerebral plaques. The A¥â peptide is derived from the ¥â-amyloid precursor(¥Âapp). Photolytic processing of ¥Âapp by ¥â-secretase(beta-site APP-cleaving enzyme, BASE) and ¥ã-secretase generates the A¥â peptide. Aeveral lines of evidence support that A¥â-induced neuronal cell death is major mechanisms od development of AD. Accordingly, the ¥â-and ¥ã-secretase have been implicated to be excellent targets for the treatment of AD. We previously found that sesaminol glucosides have improving effect on memory functions through anti-oxidative mechanism. In this study, to elucidate possible other mechanism (inhi- bition of ¥â- and ¥ã-secertase) of sesaminol glucosides, we examined the improving effect of sesaminol glucosides in the sco- polamine (1 mg/kg/mouse)-induced memory dysfunction using water maze test in the mice. Sesaminol glucosides (3.75, 7.5 mg/kg/6ml/day p.o., for 3 weeks) reversed the latency time, distance and velocity by scopolamine in dose dependent manner. Next, ¥â- and ¥ã-secertase were determined in different regions of brain. Sesaminol glucosides dose-depen- dently attenuated scopolamine-induced ¥â-sectretase activities in cortex and hippocampous and ¥ã-secertase in cortex. This study therefore suggests that sesaminol glucosides may be a useful agent for prevention of the development or progression of AD, and its inhibitory effect on secretase may play a role in the improving action of sesaminol glucosides on memory function.
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KEYWORD
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