Age-related changes of the expression of p21-activated kinase in hippocampus in an APP/PS1 transgenic mice model of Alzheimer's disease
- VernacularTitle:p21活化激酶在APP/PS1转基因AD小鼠模型海马内表达的年龄变化
- Author:
Junru YAO
;
Lu GAO
;
Jianfeng YU
;
Jixia CHAI
;
Yuehua WANG
;
Lixiang MA
;
Zulin CHEN
;
Ruixi LI
;
Yuwen PENG
- Publication Type:Journal Article
- Keywords:
p21-activated kinase;
Aβ42;
dendrite;
hippocampus;
APP/PS1 trangenie mice;
Alzheimer's disease
- From:
Chinese Journal of Neuroanatomy
2008;24(1):1-7
- CountryChina
- Language:Chinese
-
Abstract:
It has been known that the Alzheimer's disease(AD)is related closely with a synaptic failure,and the p21-activated kinase(PAK)is well documented to play an important role in the regulation of the synaptie functions.However,the relationship between thePAK and the pathology of AD is unclear.In the present study,we examined the expressions of the PAK3(one subtype ofPAK),phospho-rylated-PAK(pPAK) and β-amyloid42(Aβ42,β-amyloid with 42 peptides)in an APP/PS1 double transgenie mouse model of AD andthe morphologies of geurOtlS in the hippocampus at different ages.The Western Blot results showed that the expression of PAK remainedunchanged,while,the expression of pPAK decreased largely at the age of 32 weeks and further decreased significantly with aging in thehippocampus of the APP/PS1 transgenic mouse.A1342 levels in the hippocampus were detected to increase as early as the age of 22 weeks,and kept the increase to continue with aging.The morphological results showed no obvious neuron loss in the sections of Nissl staining,while serious distonion and disorder of the dendrites of the hippocampal neurons were observed on the sections of Gelgi staining in theAPP/PS1 transgenic mouse.The present results suggested that it seemed something wrong in the processes of phospholization of PAK,butnot in the expression of the PAK itself;the toxic Aβ42 might affect the PAK in its phospholization,which in turn directly influence thedendritic development in the hippocampal neurons and cause the dendrites distorting and disordering.
