中文摘要：

阿尔兹海默病（Alzheimer’s disease，AD）是一种多因素复杂性神经退行性疾病，β淀粉样蛋白（pamyloid，AB）级联假说和谷氨酸兴奋性毒性是其重要的发病机制。囊泡谷氨酸转运体（vesicularglutamate transporters，VGLUTs）可特异性地将神经元内的谷氨酸转移入突触囊泡，且一个独立功能单位的VGLUT对于完成一个囊泡的填充是必要和充分的，没有VGLUT的突触囊泡中就没有谷氨酸（glutamate，Glul，VGLUT在一定程度上决定了释放进突触间隙Glu的量，是谷氨酸能突触传递的关键因子。在AD中Aβ增多聚集，VGLUTs表达减低，且VGLUTs转运Glu和Glu的囊泡释放与淀粉样前体蛋白（amyloid precursor protein，APP）代谢和A13的释放在突触囊泡的循环中存在行为平行性和共定位。胞外AB的增加可增强囊泡的释放几率，而Glu引起的突触活性增加亦可增加胞外A[3的浓度。APP／Aβ与谷氨酸能系统之间相互影响导致AD的发生，VGLUTs可能在其中发挥重要作用，被认为是治疗AD的潜在的药物靶点和预警标志物。

英文摘要：

Alzheimer＇s disease （AD） is a classic multi-factorial complex neurodegenerative disease. The β amyloid （Aβ） toxicol cascade and glutamate excitotoxicity are of the important pathogenesis of AD. Vesicular glutamate transporters （VGLUTs） can specifically transfer glutamate into the synaptic vesicle. One single functional unit of VGLUT is necessary and sufficient to fill successfully vesicle, and the vesicles without VGLUT are empty. VGLUT determines the amount of glutamate that released into the synaptic cleft in some extent and is the key factor of glutamatergic synaptic transmission. There are extensive deposition of Aβ and reduced expression of VGLUT in the brain of AD patients. The processes of vesicle glutamate release and glutamate transferred by VGLUT are parallel with the Aβ release and amyloid precursor protein （APP） metabolism in the synaptic vesicle cycle. VGLUTs co-localize with APP in synaptic vesicle. The increase in extracellular Aβ enhances the probability of vesicle Glu release, and otherwise the increase in glutamate-induced synaptic activity elevates the extracellular concentration of Aβ. The interaction between APP/Aβ and glutamatergic system induced AD, in which VGLUTs may play an important role. VGLUTs have been considered a potential drug target in the treatment of AD and biomarkers in the early diagnosis of AD.