摘要
阿尔次海默病易溶型胞浆tau和难溶型双螺旋丝中的tau均被异常磷酸化和异常糖基化修饰.异常修饰的tau丧失其促微管组装活性,用不同蛋白磷酸酯酶对难溶型双螺旋丝中的tau去磷酸化处理后可不同程度恢复其促微管组装生物学活性.单纯去糖基化处理只在很小限度恢复tau的功能,但去糖基化预处理可增强去磷酸化对tau上述活性的恢复.提示:atau的异常磷酸化是导致其功能活性丧失的直接因素,而糖基化修饰可能通过对其结构的影响而间接对tau功能活性发挥作用;b蛋白磷酸酯酶可部分抑制和逆转阿尔次海默病的脑病理损伤.
Both soluble abnormally phosphorylated tau and tau in paired
helical filaments are abnormally glycosylated . Abnormally modified tau is incompetent in
promoting the assembly of microtubules. Dephosphorylation of insoluble tau with various
phosphatases restores differentially the biologic activity of tau in promoting the assembly of
microtubules. Deglycosylation of tau enhances the above mentioned activity caused by
dephosphorylation although deglycosylation alone has no significant effect on restoring the
biological activity of tau. These data suggest that abnormal phosphorylation of tau might be
the direct factor for its deficient function whereas glycosylation might be an indirect one by
affecting the structure of tau; that protein phosphatases might arrest and reverse the lessions
in Alzheimer brain.
出处
《生物化学与生物物理进展》
SCIE
CAS
CSCD
北大核心
1999年第2期154-157,共4页
Progress In Biochemistry and Biophysics
关键词
早老性痴呆
微管组装
去磷酸化
去糖基
tau基因
Alzheimer disease, microtubule assembly , dephosphorylation,
deglycosylation, tau