Abstract
The retrieval or reactivation of a memory places it into a labile state, requiring a process of reconsolidation to restabilize it. This retrieval-induced plasticity is a potential mechanism for the modification of the existing memory. Following previous data supportive of a functional role for memory reconsolidation in the modification of memory strength, here I show that hippocampal memory reconsolidation also supports the updating of contextual memory content. Using a procedure that separates the learning of pure context from footshock-motivated contextual fear learning, I demonstrate doubly dissociable hippocampal mechanisms of initial context learning and subsequent updating of the neutral contextual representation to incorporate the footshock. Contextual memory consolidation was dependent upon BDNF expression in the dorsal hippocampus, whereas the footshock modification of the contextual representation required the expression of Zif268. These mechanisms match those previously shown to be selectively involved in hippocampal memory consolidation and reconsolidation, respectively. Moreover, memory reactivation is a necessary step in modifying memory content, as inhibition of hippocampal synaptic protein degradation also prevented the footshock-mediated memory modification. Finally, dorsal hippocampal knockdown of Zif268 impaired the reconsolidation of the pure contextual memory only under conditions of weak context memory training, as well as failing to disrupt contextual freezing when a strong contextual fear memory is reactivated by further conditioning. Therefore, an adaptive function of the reactivation and reconsolidation process is to enable the updating of memory content.
Highlights
Reactivation-dependent or cue-dependent amnesia is consistently observed in many behavioral paradigms, and is commonly interpreted as reflecting the disruption of a reconsolidation process that serves to restabilize reactivated memories (Nader and Hardt, 2009)
The present results demonstrate that the conditioning of fear to a retrieved contextual memory within a context pre-exposure facilitation effect (CPFE) paradigm engages and requires reconsolidation-specific cellular mechanisms within the dorsal hippocampus
Following context pre-exposure, www.frontiersin.org immediate shock upregulated the expression of Zif268 protein in the dorsal hippocampus, the antisense oligodeoxynucleotidemediated knockdown of which prevented subsequent contextual freezing
Summary
Reactivation-dependent or cue-dependent amnesia is consistently observed in many behavioral paradigms, and is commonly interpreted as reflecting the disruption of a reconsolidation process that serves to restabilize reactivated memories (Nader and Hardt, 2009). It is possible selectively to disrupt the reconsolidation process under conditions of memory modification. Using such an approach, I have previously established that hippocampal memory reconsolidation is a primary mechanism by which contextual fear memories are strengthened through further learning (Lee, 2008). I have previously established that hippocampal memory reconsolidation is a primary mechanism by which contextual fear memories are strengthened through further learning (Lee, 2008) It remains unclear whether such an adaptive function can be extended to the modification of memory content
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
