Leverpress escape/avoidance training increases neurotrophin levels in rat brain.

David S Albeck, Kevin D Beck, Ling-Hsuan Kung, Kazuhiro Sano, Francis X Brennan
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引用次数: 7

Abstract

In addition to their well-known role in neural development, the neurotrophins BDNF and NGF help mediate the plasticity that occurs in the brain to promote learning. Exposure to learning procedures often leads to increases in neurotrophins, while exposure to stress often results in decreases. It is unclear how the neurotrophins would respond to an aversive learning task. Therefore, BDNF and NGF content in the dorsal striatum, hippocampus, and basal forebrain was measured following discrete trial lever-press escape/avoidance conditioning. Conditioning significantly increased levels of both neurotrophins in hippocampus and basal forebrain, relative to home cage controls (HCC). Contrary to expectations, the dorsal striatum did not show any significant changes. However, significant correlations were observed between dorsal striatal neurotrophins and aspects of avoidance performance. This may indicate that the dorsal striatum is involved in the performance aspects of the task. Results are discussed in terms of the role of neurotrophins in the acquisition of new information, and the neural structures involved in different types of memory.

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杠杆逃避/回避训练增加大鼠脑中的神经营养物质水平。
除了它们在神经发育中众所周知的作用外,神经营养因子BDNF和NGF还有助于调节大脑中发生的促进学习的可塑性。接触学习过程通常会导致神经营养物质增加,而接触压力通常会导致神经营养物质减少。目前尚不清楚神经营养因子如何对厌恶学习任务作出反应。因此,在离散试验杠杆按压逃避/回避条件反射后,测量了背纹状体、海马和基底前脑中的BDNF和NGF含量。与家笼对照(HCC)相比,条件调节显著增加了海马和基底前脑的神经营养因子水平。与预期相反,背纹状体没有表现出任何显著的变化。然而,在背纹状体神经营养因子和回避表现之间观察到显著的相关性。这可能表明背纹状体参与了任务的执行方面。结果讨论了神经营养因子在获取新信息中的作用,以及参与不同类型记忆的神经结构。
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