| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 4312857 | Behavioural Brain Research | 2013 | 7 Pages |
There are still uncertainties about the role of the hippocampus (HPC) in memory consolidation. One theory, systems consolidation, states that the HPC is required for the initial storage of certain memories that subsequently become established in non-HPC networks through a lengthy process, involving an interaction with the HPC. A similar process may underlie the ability of multiple, distributed learning episodes of contextual fear conditioning to create a HPC-independent context fear memory, in a memory task that does not undergo systems consolidation with the mere passage of time [5]. The current study examined whether post-learning HPC activity is necessary to establish these HPC-independent context memories through distributed learning episodes. Rats received either three or six context conditioning sessions over the course of three days. The HPC-dependence of context memories was assessed using multisite, temporary inactivation of the HPC using ropivacaine during retention testing. We established that six conditioning sessions, but not three, created a memory that could be retrieved while the HPC was inactive. To directly test our hypothesis, HPC was inactivated after half of the six context-shock pairings in an independent group of rats. The rats were then tested for retention of context fear in the absence of HPC activity. Post-learning inactivation of the HPC did not affect the establishment of a HPC-independent context memory. These results favor the idea that at least one memory system outside the HPC can acquire context memories independently.
► An evaluation of hippocampal replay in long-term cortical memory consolidation. ► Rats were trained in a contextual fear paradigm. ► 6, but not 3, pairings were enough to make the memory hippocampal-independent. ► Blocking replay using a temporary sodium channel blocker did not affect performance. ► Hippocampal replay is not needed for extra-hippocampal memory consolidation.
