PARADOXICAL EFFECTS OF NOTCH SIGNALING IN RESPONSE TO ENVIRONMENTAL ENRICHMENT DURING CRITICAL PERIOD: MOLECULAR MECHANISM UNDERLYING COGNITIVE RESERVE?

Abstract

Background: Adult neurogenesis and hippocampal function are both regulated by neuronal activity, particularly by GABAergic signals. Recently, it has been reported that an imbalance of the GABAergic ~a transmission impairs adult neurogenesis in Alzheimer’s disease (AD). This GABAergic signal is modulated by several endogenous molecules. Diazepam binding inhibitor is a small cytosolic polypeptide which is an inverse agonist of GABA A receptor. Thus, we researched the expression and the effect of diazepam binding inhibitor (DBI) on neurogenesis in the hippocampus by using AD model mice. Methods: In this study, we used AD model mice which the early onset of the symptoms of AD was induced. Our recent study showed that feeding with High Fat Diet is a viable method for inducing the early onset of the symptoms of AD in B6C3-Tg (APPswe/PSEN1dE9)85Dbo/J Alzheimer’s Disease Model Transgenic mice. Using these mice, we performed DBI knockdown experiment and immunostaing of DBI to investigate a functional role of DBI in dentate gyrus. To evaluate the effect of DBI knockdown for differentiation we observed the number and morphology of doublecortin (DCX; immature neuron marker) positive cells. Results: We immunostained DBI and dyed senile plaques to compare the expression of DBI in AD model and control mice. As a result, we observed a tendency of increased DBI expression in the hippocampus in AD model mice. Commonly, DBI is expressed in neural stem cells, however, it was also expressed in glial cell in AD model mice. Furthermore, expression of DBI was observed in astrocytes surrounding senile plaques in AD model mice. This result corroborates the report that the Ab peptide stimulates DBI biosynthesis in cultured rat astrocytes. The impairment of maturation of immature neuron in AD model mice was repaired by the inhibition of DBI expression in the dentate gyrus. Conclusions: These results suggest that increased DBI in the hippocampus inhibit normal maturation in AD model mice. This increased DBI is derived from astrocyte activated by Ab. DBI produced by astrocyte and released in the dentate gyrus cause disorder in neurogenesis in AD mice via GABA A receptor.