磷酸酶SHP2调节长期记忆诱导的间隔效应。
The phosphatase SHP2 regulates the spacing effect for long-term memory induction.
作者信息
Pagani Mario R, Oishi Kimihiko, Gelb Bruce D, Zhong Yi
机构信息
Cold Spring Harbor Laboratory, Cold Spring Harbor, NY 11724, USA.
出版信息
Cell. 2009 Oct 2;139(1):186-98. doi: 10.1016/j.cell.2009.08.033.
Abstract
A property of long-term memory (LTM) induction is the requirement for repeated training sessions spaced over time. This augmentation of memory formation with spaced resting intervals is called the spacing effect. We now show that in Drosophila, the duration of resting intervals required for inducing LTM is regulated by activity levels of the protein tyrosine phosphatase corkscrew (CSW). Overexpression of wild-type CSW in mushroom body neurons shortens the inter-trial interval required for LTM induction, whereas overexpression of constitutively active CSW proteins prolongs these resting intervals. These gain-of-function csw mutations are associated with a clinical condition of mental retardation. Biochemical analysis reveals that LTM-inducing training regimens generate repetitive waves of CSW-dependent MAPK activation, the length of which appears to define the duration of the resting interval. Constitutively active CSW proteins prolong the resting interval by altering the MAPK inactivation cycle. We thus provide insight into the molecular basis of the spacing effect.
摘要
长期记忆(LTM)诱导的一个特性是需要随时间间隔进行重复训练。这种通过间隔休息时间增强记忆形成的现象被称为间隔效应。我们现在表明,在果蝇中,诱导LTM所需的休息间隔时间是由蛋白酪氨酸磷酸酶螺旋锥(CSW)的活性水平调节的。在蘑菇体神经元中过表达野生型CSW会缩短LTM诱导所需的试验间隔时间,而组成型活性CSW蛋白的过表达则会延长这些休息间隔时间。这些功能获得性csw突变与智力迟钝的临床状况有关。生化分析表明,诱导LTM的训练方案会产生依赖CSW的MAPK激活的重复波,其长度似乎决定了休息间隔的持续时间。组成型活性CSW蛋白通过改变MAPK失活周期来延长休息间隔时间。因此,我们深入了解了间隔效应的分子基础。
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