Modulation of Carbonic Anhydrases Activity in the Hippocampus or Prefrontal Cortex Differentially Affects Social Recognition Memory in Rats
•Modulation of brain carbonic anhydrases (CAs) catalytic activity impacts short-term, long-term and the persistence of social recognition memory (SRM).•Inhibition of CAs either in the CA1 or in the mPFC impaires both short-term and long-term SRM.•Such effects are fully prevented in the presence of a...
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Veröffentlicht in: | Neuroscience 2022-08, Vol.497, p.184-195 |
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Zusammenfassung: | •Modulation of brain carbonic anhydrases (CAs) catalytic activity impacts short-term, long-term and the persistence of social recognition memory (SRM).•Inhibition of CAs either in the CA1 or in the mPFC impaires both short-term and long-term SRM.•Such effects are fully prevented in the presence of a CA activator.•Activation of CAs in the mPFC, but not in CA1, promotes the consolidation of a weak SRM. The activation of CAs in both areas enhances the persistence of SRM.
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). Animals were tested 30 min (short-term memory) or 24 h later (long-term memory). We found that inhibition of CAs with infusion of ACTZ either in the CA1 or in the mPFC impaired short-term SRM and that this effect was completely abolished by the combined infusion of D-Phen and ACTZ. We also found that activation of CAs with D-Phen facilitated the consolidation of long-term SRM in the mPFC but not in CA1. 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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ISSN: | 0306-4522 1873-7544 |
DOI: | 10.1016/j.neuroscience.2022.03.025 |