在成年大鼠体内，1-5赫兹的刺激不会在海马体中产生长期抑制或去增强作用。

Stimulation at 1-5 Hz does not produce long-term depression or depotentiation in the hippocampus of the adult rat in vivo.

Errington M L, Bliss T V, Richter-Levin G, Yenk K, Doyère V, Laroche S

Division of Neurophysiology, National Institute for Medical Research, Mill Hill, London, United Kingdom.

J Neurophysiol. 1995 Oct;74(4):1793-9. doi: 10.1152/jn.1995.74.4.1793.

Abstract

We examined the efficacy of low-frequency trains (1-5 Hz) in producing long-term depression (LTD) or depotentiation in the hippocampus of the awake adult rat and in anesthetized rats aged from 10 days to 3 mo. 2. In the dentate gyrus we found no evidence that low-frequency trains produce either depotentiation or LTD in the awake, adult animal or in the anesthetized animal at any age tested (10 days-adult). 3. In area CA1 of both awake and anesthetized adult rats, we also found no evidence that low-frequency trains induced either LTD or depotentiation. Only in area CA1 of very young rats (10-11 days) was clear evidence for LTD and depotentiation obtained; at this age experiments were only possible in anesthetized animals. By 16 days, the ability to display both LTD and depotentiation was lost. 4. These experiments suggest that repetitive low-frequency stimulation evokes a developmentally regulated form of activity-dependent depression that in the hippocampus is limited to specific pathways in the young animal. Our results leave open the question of whether alternative patterns of activity can induce LTD and/or depotentiation in the adult awake rat.

摘要

我们研究了低频串刺激（1 - 5赫兹）在成年清醒大鼠海马体以及10天至3个月大的麻醉大鼠海马体中产生长时程抑制（LTD）或去强化的效果。2. 在齿状回中，我们没有发现证据表明低频串刺激在任何测试年龄（10天至成年）的清醒成年动物或麻醉动物中会产生去强化或LTD。3. 在清醒和麻醉的成年大鼠的CA1区，我们也没有发现证据表明低频串刺激会诱导LTD或去强化。仅在非常年幼的大鼠（10 - 11天）的CA1区获得了LTD和去强化的明确证据；在这个年龄段，实验仅能在麻醉动物中进行。到16天时，显示LTD和去强化的能力丧失。4. 这些实验表明，重复低频刺激会引发一种发育调节的活动依赖性抑制形式，在海马体中这种抑制仅限于幼小动物的特定通路。我们的结果没有解决替代活动模式是否能在成年清醒大鼠中诱导LTD和/或去强化的问题。