Adaptations in the Hippocampus during the Fetal to Neonatal Transition in Guinea Pigs

Abstract

(Background) The transition from in utero to ex utero life is associated with rapid changes in the brain that are both protective and required for newborn functional activities, allowing adaption to the changing environment. The current study aimed to reveal new insights into adaptations required for normal ongoing brain development and function after birth. (Methods) Time-mated dams were randomly allocated to fetal collection at gestational age 68 or spontaneous term delivery followed by neonatal collection within 24 h of birth. Immunohistochemistry was performed to examine mature myelin formation and neuronal nuclei coverage. RT-PCR was used to quantify the mRNA expression of key markers of the oligodendrocyte lineage, neuronal development, and GABAergic/glutamatergic pathway maturation. (Results) Mature myelin was reduced in the subcortical white matter of the neonate, whilst neuronal nuclei coverage was increased in both the hippocampus and the overlying cortical region. Increased mRNA expression in neonates was observed for oligodendrocyte and neuronal markers. There were also widespread mRNA changes across the inhibitory GABAergic and excitatory glutamatergic pathways in neonates. (Conclusions) This study has identified important adaptations in the expression of key neurodevelopmental structures, including oligodendrocytes and neurons, that may be essential for appropriate transition in neurodevelopment to the postnatal period.