突触可塑性与学习记忆的转译控制

E. Klann, J. Richter
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引用次数: 26

摘要

长期记忆巩固的一个标志是需要新的基因表达。尽管记忆的形成主要集中在转录控制上(Kandel 2001),但四十多年来人们已经知道,记忆的形成也需要蛋白质合成(Flexner et al. 1963)。这项研究和其他早期研究在分子机制方面提供的信息很少,因为它们主要依赖于将一般翻译抑制剂注射到动物体内。然而,在过去的10年里,我们对记忆的翻译控制及其细胞基础突触可塑性的理解取得了重大进展。在本章中,我们讨论了这些基本大脑活动的翻译控制的最突出方面,并提出了我们对一些仍有待阐明的关键问题的想法。突触可塑性和记忆的时间阶段记忆是如何在细胞水平上储存的?大多数神经科学家假设记忆涉及神经元之间突触连接强度的变化(即突触传递)。突触效能的这些变化被称为突触可塑性,表现为强度的增加(增强)或减少(抑制)。长期增强(LTP)和长期抑郁(LTD)在啮齿动物海马体中得到了深入的研究,海马体是处理空间、时间和物体之间关系信息的关键大脑结构。LTP和LTD均可在体外常规诱导下通过不同模式的电刺激传递到海马切片的突触。20多年前,海马LTP被证明需要新的蛋白质合成……
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Translational control of synaptic plasticity and learning and memory
One hallmark of long-term memory consolidation is the requirement for new gene expression. Although memory formation has largely focused on transcriptional control (Kandel 2001), it has been known for more than four decades that it also requires protein synthesis (Flexner et al. 1963). This and other early studies offered little in the way of molecular mechanisms because they relied mostly on the injection of general translation inhibitors into animals. The last 10 years, however, have witnessed major advances in our understanding of translational control of memory and its cellular foundation, synaptic plasticity. In this chapter, we discuss the most salient aspects of translational control of these essential brain activities and present our thoughts on some of the key issues remaining to be elucidated. TEMPORAL PHASES OF SYNAPTIC PLASTICITY AND MEMORY How are memories stored at the cellular level? Most neuroscientists hypothesize that memory involves changes in the strength of synaptic connections between neurons (i.e., synaptic transmission). These changes in synaptic efficacy are referred to as synaptic plasticity and are manifested as either an increase (potentiation) or decrease (depression) in strength. Long-term potentiation (LTP) and long-term depression (LTD) have been intensively studied in the rodent hippocampus, a brain structure that is critical for processing information about space, time, and the relationship between objects. Both LTP and LTD can be induced routinely in vitro with distinct patterns of electrical stimulation delivered to synapses in preparations of hippocampal slices. More than 20 years ago, hippocampal LTP was shown to require new protein synthesis...
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