Abstract

It is becoming increasingly clear that the long-term plasticity can be regulated via histone modifications. Many studies demonstrated the role of histone acetylation in acquisition, maintenance, and extinction of long-term memory. Nonetheless, the role of histone acetylation in memory reinstatement following its disruption by antimnemonic treatments was not studied in details. In terrestrial snails, we examined effects of the histone deacetylases inhibitors (HDACi) sodium butyrate (NaB) and trichostatin A (TSA) on reinstatement of the context fear memory impaired by antimnemonic agents such as protein synthesis blocker anisomycin (ANI) + reminding or a specific inhibitor of protein-kinase Mζ, zeta inhibitory peptide (ZIP). It was observed that both NaB and TSA applications restored the ANI-impaired context memory regardless of memory reactivation, while a combination of NaB or TSA plus memory reactivation (or additional training) was necessary for the effective reinstatement of the ZIP-impaired memory. Additionally, NaB injections significantly facilitated development of long-term memory in animals with weak memory, while no effect was observed in animals with strong memory. The data obtained confirmed the assumption that histone acetylation is a critical regulatory component of memory development and reinstatement.

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