Differentiation of canine bone marrow stromal cells into voltage- andglutamate-responsive neuron-like cells by basic fibroblast growth factor

摘要

We investigated the in vitro differentiation of canine bone marrow stromal cells (BMSCs) into voltage- and glutamate-responsive neuron-like cells. BMSCs were obtained from the bone marrow of healthy beagle dogs. Canine BMSCs were incubated with the basal medium for neurons containing recombinant human basic fibroblast growth factor (bFGF; 100 ng/ml). The viability of the bFGF-treated cells was assessed by a trypan blue exclusion assay, and the morphology was monitored. Real-time RT-PCR was performed to evaluate mRNA expression of neuronal, neural stem cell and glial markers. Western blotting and immunocytochemical analysis for the neuronal markers were performed to evaluate the protein expression and localization. The Ca²⁺ mobilization of the cells was evaluated using the Ca²⁺ indicator Fluo3 to monitor Ca²⁺ influx. To investigate the mechanism of bFGF-induced neuronal differentiation, the fibroblast growth factor receptor inhibitor, the phosphoinositide 3-kinase inhibitor or the Akt inhibitor was tested. The bFGF treatment resulted in the maintenance of the viability of canine BMSCs for 10 days, in the expression of neuronal marker mRNAs and proteins and in the manifestation of neuron-like morphology. Furthermore, in the bFGF-treated BMSCs, a high concentration of KCl and L-glutamate induced an increasein intracellular Ca²⁺ levels. Each inhibitor significantly attenuated thebFGF-induced increase in neuronal marker mRNA expression. These results suggest that bFGFcontributes to the differentiation of canine BMSCs into voltage- and glutamate-responsiveneuron-like cells and may lead to the development of new cell-based treatments forneuronal diseases.