Astrogliosis is temporally correlated with enhanced neurogenesis in adult rat hippocampus following a glucoprivic insult

Abstract

2-Deoxy- d-glucose (2-DG) administration causes transient depletion of glucose derivates and ATP. Hence, it can be used in a model system to study the effects of a mild glycoprivic brain insult mimicking transient hypoglycemia, which often occurs when insulin or oral hypoglycemic agents are administered for diabetes control. In the present study, the effect of a single 2-DG application (500 mg/kg, a clinically applicable dose) on glial reactivity and neurogenesis in adult rat hippocampus was examined, as well as a possible temporal correlation between these two phenomena. Post-insult (PI) glial reactivity time course was assessed by immunoreaction against glial-fibrillary acidic protein (GFAP) during the following 5 consecutive days. A clear increase of GFAP immunoreactivity in hilus was observed from 48 to 96 h PI. Moreover, enhanced labeling of long radial processes in the granule cell layer adjacent to hilus was evidenced. On the other hand, a transient increase of progenitor cell proliferation was detected in the subgranular zone, prominently at 48 h PI, coinciding with the temporal peak of glial activation. This increase resulted in an augment of neuroblasts double labeled with 5-bromo-deoxyuridine (BrdU) and with double cortin (DCX) at day 7 PI. Around half of these cells survived 28 days showing matured neuronal phenotype double labeled by BrdU and a neuronal specific nuclear protein marker (NeuN). These findings suggest that a transient neuroglycoprivic state exerts a short-term effect on glial activation that possibly triggers a long-term effect on neurogenesis in hippocampus.