RESUMO
Mesenchymal stem cells (MSCs) are multipotent stem cells with clinical interest. It has been reported that MSCs can be isolated from the human term placenta. We investigated the ability of human placenta-derived MSCs to differentiate into a neural phenotype in coculture assays with astrocytes obtained from neonatal rats. Placenta-derived MSCs were cocultured on a confluent monolayer of astrocytes obtained from the rat cerebellum to evaluate the differences in morphology. The extracellular matrix (ECM) produced by astrocytes as well as the growth factors produced by the astrocyte-conditioned medium were evaluated. The expression of the neural markers glial fibrillate acid protein (GFAP) and Nestin was studied in MSCs by immunocytochemistry. MSCs were able to respond to the astrocyte niche in coculture assays. They expressed the neural markers GFAP, Nestin, or ß-Tubulin III, followed by an outgrowth of cell processes. The ECM from astrocytes was not effective in inducing the neural phenotype in MSCs, although the expression of ß-Tubulin III was observed. When MSCs were cocultured with cerebellar astrocytes from newborn rats, a neural phenotype was achieved. This was determined by immunocytochemistry to GFAP, Nestin, or ß-Tubulin III and by morphological changes. It was achieved without the addition of exogenous differentiation factors. This demonstrates that placenta-derived MSCs may be able to differentiate into neural cell types when in direct contact with a neural environment.