Targeting acetyl-CoA metabolism attenuates the formation of fear memories through reduced activity-dependent histone acetylation

ABSTRACT Histone acetylation is a key component in the consolidation of long-term fear memories. Epigenetic enzymes involved in histone acetylation, including histone acetyltransferases and deacetylases, have been put forward as potential pharmacological targets in the treatment of pathological fear memories, such as those that underlie post-traumatic stress disorder (PTSD). However, these enzymes typically play a ubiquitous role in gene regulation, which precludes the clinical use of systemic manipulations. Recently, we have found that a nuclear-localized metabolic enzyme, Acetyl-coA synthetase 2 (Acss2), modulates histone acetylation during learning and memory. Loss of Acss2 is well-tolerated in mice, with no impact on general health or baseline behavior. Here, we show that an Acss2 null mouse model shows reduced acquisition of long-term fear memories in assays of contextual and cued fear conditioning. We find that loss of Acss2 leads to consolidation-specific reductions in both histone acetylation and the expression of critical learning and memory-related genes in the dorsal hippocampus. Further, we show that systemic administration of blood-brain-barrier (BBB)-permeable Acss2 inhibitors during the consolidation window reduces fear memory formation in mice and rats, and also reduces anxiety in a predator-scent-stress (PSS) paradigm. Our findings suggest that Acss2 plays a critical role in the formation of fear memories, and represents a potential pharmacological target in the treatment of PTSD.