Ginseng gintonin attenuates the disruptions of brain microvascular permeability and microvascular endothelium junctional proteins in an APPswe/PSEN？1 double？transgenic mouse model of Alzheimer's disease
- Ginseng gintonin attenuates the disruptions of brain microvascular permeability and microvascular endothelium junctional proteins in an APPswe/PSEN？1 double？transgenic mouse model of Alzheimer's disease
- 임혜원; 장미희; 최선혜; 최종희; 오진희; 이라미; 이나은; 조연진; 김형춘; 조익현; 나승열
- Issue Date
- Experimental and Theurapeutic Medicine
- VOL 21, 310
- It has been previously indicated that gintonin, which is a novel exogenous ginseng？derived lysophosphatidic acid (LPA) receptor ligand, restores memory dysfunctions in an APPswe/PSEN？1 double？transgenic mouse model of Alzheimer's disease (AD Tg mice) by attenuating β？amyloid plaque deposition, recovering cholinergic dysfunctions and upregulating hippocampal neurogenesis in the cortex and hippocampus. Although β？amyloid plaque depositions in AD is accompanied with disruptions of brain microves？sels, including the brain？blood barrier (BBB), it is unknown whether gintonin exerts protective effects on brain microvas？cular dysfunctions in AD Tg mice. In the present study, the effects of gintonin？enriched fraction (GEF) on the changes in β？amyloid plaque depositions, brain permeability of Evans blue, and microvascular junctional proteins were investigated in AD Tg mice. Long？term oral administration of GEF reduced β？amyloid plaque depositions in the cortex and hippocampus of AD Tg mice. GEF treatment also reduced the permeability of Evans blue through BBB and decreased immunoreactivity of platelet endothelial cell adhesion molecule？1 (a marker of BBB disruption) in the cortex and hippocampus of AD Tg mice in a dose？dependent manner. However, GEF elevated the protein expression of occludin, claudin？5 and zonula occludens？1, which are tight？junction proteins. The present results demon？strated that long？term oral GEF treatment not only attenuates β？amyloid plaque depositions in the brain but also exhibits protective effects against microvascular disruptions in AD Tg mice. Finally, GEF exhibits anti？AD effects through attenu ation of β？amyloid plaque depositions and protection against brain microvascular damage in an AD animal model.
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