Mesches M H, Fleshner M, Heman K L, Rose G M, Diamond D M
Department of Pharmacology, University of Colorado Health Sciences Center, Denver, Colorado 80262, USA.
J Neurosci. 1999 Jul 15;19(14):RC18. doi: 10.1523/JNEUROSCI.19-14-j0004.1999.
This study evaluated the effects of acute psychological stress (cat exposure) in adult male rats on electrophysiological plasticity subsequently assessed in the hippocampus in vitro. Two physiological models of memory were studied in CA1 in each recording session: (1) primed burst potentiation (PBP), a low-threshold form of plasticity produced by a total of five physiologically patterned pulses; and (2) long-term potentiation (LTP), a suprathreshold form of plasticity produced by a train of 100 pulses. Three groups of rats were studied: (1) undisturbed rats in their home cage (home cage); (2) rats placed in a chamber for 75 min (chamber); and (3) rats placed in a chamber for 75 min in close proximity to a cat (chamber/stress). At the end of the chamber exposure period, blood samples were obtained, and the hippocampus was prepared for in vitro recordings. Only the chamber/stress group had elevated (stress) levels of corticosterone. The major finding was that PBP, but not LTP, was blocked in the chamber/stress group. Thus, the psychological stress experienced by the rats in response to cat exposure resulted in an inhibition of plasticity, which was localized to the intrinsic circuitry of the hippocampus. This work provides novel observations on the effects of an ethologically relevant stressor on PBP in vitro and of the relative insensitivity of LTP to being modulated by psychological stress. We discuss the relevance of these electrophysiological findings to our behavioral work showing that predator stress impairs spatial memory.
本研究评估了成年雄性大鼠急性心理应激(接触猫)对随后在体外海马体中评估的电生理可塑性的影响。在每次记录过程中,在CA1区研究了两种记忆的生理模型:(1)引发爆发性增强(PBP),一种由总共五个生理模式脉冲产生的低阈值可塑性形式;(2)长时程增强(LTP),一种由一串100个脉冲产生的超阈值可塑性形式。研究了三组大鼠:(1)在其家笼中未受干扰的大鼠(家笼组);(2)置于一个小室中75分钟的大鼠(小室组);(3)置于一个小室中75分钟且紧邻一只猫的大鼠(小室/应激组)。在小室暴露期结束时,采集血样,并准备好海马体用于体外记录。只有小室/应激组的皮质酮水平升高(处于应激状态)。主要发现是,小室/应激组中PBP被阻断,但LTP未被阻断。因此,大鼠因接触猫而经历的心理应激导致可塑性受到抑制,这种抑制作用局限于海马体的内在神经回路。这项工作提供了关于一种与行为学相关的应激源对体外PBP的影响以及LTP对心理应激调节相对不敏感的新观察结果。我们讨论了这些电生理发现与我们的行为学研究结果的相关性,后者表明捕食者应激会损害空间记忆。