蛋白激酶C(PKC)在海兔的间隔训练和集中训练过程中发生不同的转位。
PKC differentially translocates during spaced and massed training in Aplysia.
作者信息
Farah Carole A, Weatherill Daniel, Dunn Tyler W, Sossin Wayne S
机构信息
Department of Neurology and Neurosurgery, Montreal Neurological Institute, McGill University, Montreal, Quebec, Canada.
出版信息
J Neurosci. 2009 Aug 19;29(33):10281-6. doi: 10.1523/JNEUROSCI.1533-09.2009.
Abstract
Learning is highly regulated by the pattern of training. In Aplysia, an important organism for the development of cellular and molecular models of learning, spaced versus massed application of the same stimulus leads to different forms of memory. A critical molecular step underlying memory is the serotonin (5HT)-mediated activation of the novel PKC Apl II. Here, we demonstrate that activation of PKC Apl II is highly sensitive to the pattern of 5HT application. Spaced applications downregulate PKC translocation through PKA signaling, whereas massed applications lead to persistent translocation of PKC. Differential regulation of PKC translocation is mediated by competing feedback mechanisms that act through protein synthesis. These studies elucidate a fundamental molecular difference between spaced and massed training protocols.
摘要
学习受到训练模式的高度调控。在海兔(一种对学习的细胞和分子模型发展具有重要意义的生物)中,对同一刺激进行间隔式与集中式施加会导致不同形式的记忆。记忆背后的一个关键分子步骤是血清素(5HT)介导的新型PKC Apl II的激活。在此,我们证明PKC Apl II的激活对5HT的施加模式高度敏感。间隔式施加通过PKA信号通路下调PKC易位,而集中式施加则导致PKC的持续易位。PKC易位的差异调节是由通过蛋白质合成起作用的竞争性反馈机制介导的。这些研究阐明了间隔式和集中式训练方案之间的一个基本分子差异。
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