Hippocampal neurogenesis as a critical target of developmental neurotoxicity

Abstract

Evidence from our recent studies points to the notion that adult neurogenesis in the hippocampus may serve as a sensitive endpoint to detect developmental neurotoxicity. Adult neurogenesis is the postnatal process of continued generation of new neurons through the adult stage in the brain. Monitoring of granule cell lineages generated from the subgranular zone and γ-aminobutyric acid (GABA)-ergic interneurons in the hilus of the dentate gyrus as major players consisting of hippocampal neurogenesis is effective for detecting target cell populations of developmental neurotoxicants. Especially, reelin-expressing GABAergic interneurons are a useful marker to predict disruption of migration and correct positioning of newborn neurons following disruption of neurogenesis. Because axon terminal toxicants target granule cell lineage population showing neurite outgrowth, there may be common target mechanisms between the developmental and adult-type neurotoxicity. Because adult neurogenesis continues through the adult stage, developmental neurotoxicity could be detected in regular toxicity studies, such as in a 28-day repeated dose study. Alternatively, adult-type neurotoxicity could be detected by measuring the cellular responses in neurogenesis. Moreover, it should be stressed that there may be epigenetic toxicity mechanisms to affect the process of neurogenesis involving neuronal stem cells and interneuron subpopulations, showing continued disruption through the adult stage. These findings suggest that hippocampal neurogenesis is considered to be a critical target of neurotoxicity of both developmental and adult types.