Maturation of Hippocampus-Medial Prefrontal Cortex Projections Defines a Pathway-Specific Sensitive Period for Cognitive Flexibility
The septotemporal axis of the hippocampus separates it into domains with unique molecular, cellular, downstream connectivity and behavioral profiles, and yet very little is known about the ontogenesis of these highly specialized subcircuits. Here, we used viral tracing, optogenetic-assisted patch clamping, chemogenetics and behavior in mice to examine changes in domain-defined hippocampus efferent projections from postnatal day (P)10 to P60. We found distinct anatomical and synaptic developmental signatures in ventral and intermediate CA1 downstream connectivity, with unique contributions to the prelimbic and infralimbic subregions of the medial prefrontal cortex (mPFC). Inhibition of the ventral CA1 (vCA1)-mPFC pathway during juvenility led to a deficit in adult cognitive flexibility exclusively in females, establishing a sex- and pathway-specific sensitive period preceding the stabilization of vCA1-mPFC synaptic transmission. Our data elucidate domain- and target-defined postnatal maturation of hippocampus efferents, identifying a sex-specific sensitive period with crucial implications for early life influences on adult cognition.