Neuroscience
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Previous experiences can drive adaptive behavior based on different characteristics, including contextual ones. Indeed, contextual information can be used as a criterion to guide the recall of the most relevant memory trace and the inhibition of others. The medial Prefontal Cortex (mPFC) has been proposed as an area that plays a pivotal role in regulating the retrieval of memory traces in downstream regions. ⋯ We also found an increase in c-Fos expression in the mPFC after mPFC 5-HT2aR blockade that does not correlate with the animals' behavioral response. However, these changes showed a significant correlation with those observed in the PRH. These results suggest that mPFC 5-HT2aR signaling may modulate the behavioral response during memory recall by controlling the neuronal activation in the PRH.
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Spaced training, which involves long inter-trial intervals, has positive effects on memories. One of the main attributes of long-term memories (LTM) is persistence. Here, to identify the process that promotes LTM persistence by spaced learning, we used the spatial object recognition (SOR) task in rats. ⋯ Our results suggest that the mechanism of memory expression, but not those of memory reinforcement or reconsolidation, is necessary to promote memory persistence after retraining. The molecular mechanisms involve ERKs1/2 activity to set the SOR learning tag, and the availability of GluA2-containing AMPA receptor. In conclusion, both the synthesis of PRPs and the setting of learning tags are key processes triggered by retraining that allow SOR memory persistence.
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Growing evidence indicates that brain carbonic anhydrases (CAs) are key modulators in cognition, particularly in recognition and aversive memories. Here we described a role for these enzymes also in social recognition memory (SRM), defined as the ability to identify and recognize a conspecific, a process that is of paramount importance in gregarious species, such as rodents and humans. Male adult Wistar rats were submitted to a social discrimination task and, immediately after the sample phase, received bilateral infusions of vehicle, the CAs activator D-phenylalanine (D-Phen, 50 nmols/side), the CAs inhibitor acetazolamide (ACTZ; 10 nmols/side) or the combination of D-Phen and ACTZ directly in the CA1 region of the dorsal hippocampus or in the medial prefrontal cortex (mPFC). ⋯ Finally, we show that activation of CAs in CA1 and in the mPFC enhances the persistence of SRM for up to 7 days. In both cases, the co-infusion of ACTZ fully prevented D-Phen-induced procognitive effects. These results suggest that CAs are key modulators of SRM and unveil a differential involvement of these enzymes in the mPFC and CA1 on memory consolidation.
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Fear memories are important for survival and are implicated in the etiology of fear disorders such as Post Traumatic Stress Disorder (PTSD). Fear memories are well studied pre-clinically and sex differences in rodent fear expression have been reported: females tend to freeze less than males. Whether this is a difference in fear learning or expression is debated. ⋯ Thus, female and male rats have similar fear learning but females express it with an active motor response. Furthermore, female rats also exhibited an active motor response under other anxiogenic conditions (Elevated Plus Maze) and had higher reactivity (Acoustic Startle Response) but not when fear-eliciting stimuli were present: cat hair and foot-shock. In summary, female rats have an active motor response to anxiogenic stimuli which we termed 'Anxioescapic' behavior strategy.
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Memories are initially labile and become stable through consolidation. Once consolidated, a memory can be destabilized by a reminder, requiring reconsolidation to become stable again. Memory reconsolidation has been evidenced in several learning tasks, including novel object recognition (NOR). ⋯ One minute of training induced a weak memory that could be enhanced by sodium butyrate, an inhibitor of histone deacetylases (HDACs), after 1 min of re-exposure. Histone acetylation is an epigenetic mechanism involved in gene expression regulation which positively correlates with memory. Thus, in this study we have performed an accurate characterization of the features of the reminder effective in triggering hippocampal NF-κB-dependent reconsolidation.