利用电刺激在间位核区域作为CS的条件反应的定时。

Andrew M Poulos, Richard F Thompson
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引用次数: 9

摘要

大量证据表明,小脑对标准延迟条件反射的获取、保留和表达至关重要,基本记忆痕迹似乎建立在前间位核(IP)中。条件反应的自适应时间是经典条件反射的一个显著特征,条件反应的自适应时间在非条件刺激(US)开始时达到峰值,且在大范围的CS-US间刺激间隔(ISI)内达到峰值。一个关键的问题是,这个时间是由小脑回路确定的,还是先于小脑确定的。在这项研究中,我们分析了经过良好训练的家兔在调整CS- us间隔之前和之后,通过电刺激位间核作为条件刺激(CS)建立的条件眨眼反应的时间。与之前的结果一致,在这些条件下的学习非常快速和稳健。CR峰值眨眼潜伏期最初与US发作时间一致,并根据CS-US间隔的延长或缩短进行调整,就像周围CSs一样。通过直接电刺激IP作为CS获得条件性眨眼反应,因此在CS- us延迟变化后保持了时间灵活性,这在标准的经典眨眼条件反射程序中发现。
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Timing of conditioned responses utilizing electrical stimulation in the region of the interpositus nucleus as a CS.

A large body of evidence indicates that the cerebellum is essential for the acquisition, retention, and expression of the standard delay conditioned eyeblink response and that the basic memory trace appears to be established in the anterior interpositus nucleus (IP). Adaptive timing of the conditioned response (CR) is a prominent feature of classical conditioning-the CR peaks at the time of onset of the unconditioned stimulus (US) over a wide range of CS-US interstimulus intervals (ISI). A key issue is whether this timing is established by the cerebellar circuitry or prior to the cerebellum. In this study timing of conditioned eyeblink responses established via electrical stimulation of the interpositus nucleus as a conditioned stimulus (CS) was analyzed prior to and following modification of the CS-US interval in well-trained rabbits. Consistent with previous results, learning under these conditions is very rapid and robust. The CR peak eyeblink latencies are initially timed to the US onset and adjust accordingly to lengthening or shortening of the CS-US interval, just as with peripheral CSs. The acquisition of conditioned eyeblink responses by direct electrical stimulation of the IP as a CS thus retains temporal flexibility following shifts in the CS-US delay, as found in standard classical eyeblink conditioning procedures.

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