Perinatal omega-3 sex-selectively mitigates neuropsychiatric impacts of prenatal THC in the cortico-striatal-hippocampal circuit

Abstract Prenatal Δ9-tetrahydrocannabinol exposure (PTE) poses long-lasting neuropsychiatric risks, as evidenced by clinical and preclinical studies, yet the neurobiological mechanisms remain poorly defined. Emerging evidence implicates the neurolipidome, a critical mediator of neurodevelopment and endocannabinoid signaling, as a potential contributor. Here, we demonstrate that dietary omega-3 fatty acid supplementation sex-selectively ameliorates neurodevelopmental deficits induced by PTE in a Wistar rat model. Omega-3 supplementation reduced cognitive and emotional disturbances in male offspring and normalized many neuronal and neurochemical abnormalities in the