Oxytocin is an important regulator of the social brain. In some animal models of autism, notably in Magel2tm1.1Mus-deficient mice, peripheral administration of oxytocin in infancy improves social behaviors until adulthood. However, neither the mechanisms responsible for social deficits nor the mechanisms by which such oxytocin administration has long-term effects are known. Here, we aimed to clarify these oxytocin-dependent mechanisms, focusing on social memory performance. Using in situ hybridization (RNAscope), we have established that Magel2 and oxytocin receptor are co-expressed in the dentate gyrus and CA2/CA3 hippocampal regions involved in the circuitry underlying social memory. Then, we have shown that Magel2tm1.1Mus-deficient mice, evaluated in a three-chamber test, present a deficit in social memory. Next, in hippocampus, we conducted neuroanatomical and functional studies using immunostaining, oxytocin-binding experiments, ex vivo electrophysiological recordings, calcium imaging and biochemical studies. We demonstrated: an increase of the GABAergic activity of CA3-pyramidal cells associated with an increase in the quantity of oxytocin receptors and of somatostatin interneurons in both DG and CA2/CA3 regions. We also revealed a delay in the GABAergic development sequence in Magel2tm1.1Mus-deficient pups, linked to phosphorylation modifications of KCC2. Above all, we demonstrated the positive effects of subcutaneous administration of oxytocin in the mutant neonates, restoring hippocampal alterations and social memory at adulthood. Although clinical trials are debated, this study highlights the mechanisms by which peripheral oxytocin administration in neonates impacts the brain and demonstrates the therapeutic value of oxytocin to treat infants with autism spectrum disorders.
Several studies on rodent models with an Autism Spectrum Disorders-like (ASD) phenotype, notably Magel2-deficient mice, have shown a rescue of deficits in adult social behavior after neonatal administration of oxytocin. However, the neurobiological alterations responsible for the social deficits and the mechanism by which oxytocin-administration in infancy has a rescue effect in adulthood remain unclear.Here we show that Magel2-deficient adult mice exhibit a deficit in social memory that is corrected by neonatal oxytocin administration. We studied hippocampal regions known to be associated with social memory engrams involving the OT-system. At critical stages of development, we characterized cellular, physiological and biochemical alterations of these hippocampal regions in Magel2-deficient mice, alterations present in several ASD models. Overall we demonstrate a strong impact of oxytocin-administration at key stages of postnatal hippocampal neurodevelopment, shedding light on the role for oxytocin in treating neurodevelopmental disorders characterized by deficits in social memory.
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