Kalisch Raffael, Korenfeld Elian, Stephan Klaas E, Weiskopf Nikolaus, Seymour Ben, Dolan Raymond J
Wellcome Department of Imaging Neuroscience, Functional Imaging Laboratory, Institute of Neurology, University College London, London, WC1N 3BG, United Kingdom.
J Neurosci. 2006 Sep 13;26(37):9503-11. doi: 10.1523/JNEUROSCI.2021-06.2006.
In fear extinction, an animal learns that a conditioned stimulus (CS) no longer predicts a noxious stimulus [unconditioned stimulus (UCS)] to which it had previously been associated, leading to inhibition of the conditioned response (CR). Extinction creates a new CS-noUCS memory trace, competing with the initial fear (CS-UCS) memory. Recall of extinction memory and, hence, CR inhibition at later CS encounters is facilitated by contextual stimuli present during extinction training. In line with theoretical predictions derived from animal studies, we show that, after extinction, a CS-evoked engagement of human ventromedial prefrontal cortex (VMPFC) and hippocampus is context dependent, being expressed in an extinction, but not a conditioning, context. Likewise, a positive correlation between VMPFC and hippocampal activity is extinction context dependent. Thus, a VMPFC-hippocampal network provides for context-dependent recall of human extinction memory, consistent with a view that hippocampus confers context dependence on VMPFC.
在恐惧消退过程中,动物了解到条件刺激(CS)不再预示着它之前与之关联的有害刺激[非条件刺激(UCS)],从而导致条件反应(CR)受到抑制。消退产生了一种新的CS-无UCS记忆痕迹,与最初的恐惧(CS-UCS)记忆相互竞争。在消退训练期间出现的情境刺激有助于消退记忆的回忆,进而在后续CS出现时抑制CR。与来自动物研究的理论预测一致,我们发现,在消退后,CS诱发的人类腹内侧前额叶皮质(VMPFC)和海马体的参与是依赖于情境的,在消退情境而非条件化情境中表现出来。同样,VMPFC和海马体活动之间的正相关也依赖于消退情境。因此,VMPFC-海马体网络提供了对人类消退记忆的情境依赖性回忆,这与海马体赋予VMPFC情境依赖性的观点一致。