Many anticonvulsant drugs have been studied for their non conventional therapeutic effects on neurodegerative diseases but merely a few demonstrated potential neurogenic characteristic. Gabapentin as a well-known mood stabilizer was studied for its potential capability to promote neurogenesis in embryonic rat cortical stem cells. Rat E14 cortical stem cells were exposed to gabapentin during differentiation for 7 days and subjected to immunocytochemistry. The phenotypic changes were evaluated in the ultimately survived and differentiated cells. Gabapentin (16 µg/ml) exposure significantly increased the number and percentage of MAP2 immunopositive neurons with no significant alterations in nestin or GFAP immunopositivity in neural or glial progenitors. The enhanced number of neurons by therapeutic doses of gabapentin via augmentation of the neuronal differentiation in neural stem cells may participate to the therapeutic properties of gabapentin in the treatment of mood disorder.
© Georg Thieme Verlag KG Stuttgart · New York.