Neuron-specific epigenetic repression of Cdk5 impairs hippocampal-dependent memory in male and female mice

Biological sex regulates fundamental neurobiology, as well as the etiology and prevalence of neuropsychiatric disorders. Cyclin-dependent kinase 5 (Cdk5) is a neuronally enriched kinase that regulates synaptic plasticity, neuronal homeostasis, and hippocampal-dependent memory. While Cdk5 protein activity is necessary and sufficient to promote memory in male rodents, its role in females and its gene regulation in either sex remain poorly understood. In males, Cdk5 protein inhibition impairs fear memory. We previously showed that fear conditioning activates Cdk5 gene expression and increases permissive chromatin acetylation in male, but not female hippocampus. We hypothesize that Cdk5 gene repression would impair fear memory in males. We developed an excitatory neuron-specific, CRISPR/dCas9-HDAC3 epigenetic editing tool to target histone acetylation at the endogenous Cdk5 promoter. This strategy reduced histone acetylation and decreased Cdk5 mRNA, protein, and kinase activity in both sexes. Interestingly, Cdk5 repression in hippocampal neurons impaired fear and spatial memory in both male and female mice. Targeted deacetylation also evicted the transcription factor CREB1 from the Cdk5 promoter, revealing a link between histone acetylation and Cdk5 transcriptional activation. These findings demonstrate that Cdk5 acetylation in neurons is necessary for hippocampal memory in both sexes, providing new insight into sex-specific epigenetic regulation of memory.