Prenatal Cannabidiol and Δ9-Tetrahydrocannabinol exposure lead to sex-specific disruptions in risk assessment and behavioral switching via divergent rewiring of the adult mPFC

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Abstract

Background

Prenatal cannabidiol (CBD) consumption is increasing, driven by a perception of safety relative to Δ9-tetrahydrocannabinol (THC). However, the neurodevelopmental risks of gestational CBD remain largely uncharacterized.

Methods

Using a sex-disaggregated framework, we investigated adult (P100–140) mouse offspring following in utero exposure (GD5-18; 3 mg/kg) to THC or CBD. Behavioral strategies were evaluated through risk-assessment and repetitive behavior tasks, coupled with targeted electrophysiological mapping of medial prefrontal cortex Layer 5 neurons, the primary hub for approach-avoidance arbitration.

Results

We found that increased repetitive behavior was a universal feature of prenatal cannabinoids exposure. Alterations in risk appraisal emerged uniquely in CBD-exposed females and appeared dissociated from classical anxiety metrics. At the circuit level, THC and CBD were linked to an absence of endocannabinoid long-term depression (eCB-LTD). In males, CBD exposure coincided with a bidirectional plasticity collapse characterized by functional saturation, elevated AMPA/NMDA ratios, and slowed NMDAR activation kinetics. This ceiling effect may represent a top-down constraint on the prefrontal output circuit, potentially limiting the synaptic flexibility typically associated with adaptive behavioral transitions. In contrast, females exhibited compound-specific reorganizations of E/I balance. CBD-exposed females displayed a scaled-up architecture that preserved net E/I balance, whereas THC was associated with a pro-excitatory phenotype through the collapse of inhibitory control.

Conclusions

Despite a shared loss of eCB-LTD, distinct synaptic remodeling might underlie divergent alterations in risk assessment and behavioral flexibility. This sex-specific circuit rewiring provides a neurobiological framework for the long-term behavioral risks associated with gestational cannabinoid exposure.

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