ABSTRACT
AIM: To investigate the effect of musk soluble components on the growth, the differentiation and the transfection efficiency of rat neural stem cell (NSC) in vitro. METHODS: The growth and the differentiation of rat NSC were observed when musk soluble components were added into the culture medium of NSC. Meanwhile, the pEGFP-C1, which expressed the enhanced GFP protein, was transfected into the NSC by method of electro- transfection. RESULTS: When NSC was treated with musk soluble components, the neurites were outgrowth around NSC and attached to the plate, and the neural spheres were disassociated. The glia-like cells appeared at the concentration of 0.3 per thousand. When the concentration of musk soluble components was lower than 3 per thousand, the transformative cells could recover. Furthermore, the efficiency of transfection pEGFP into NSC was remarkably increased after the treatment with musk. CONCLUSION: After the treatment of NSC with musk soluble components, the neural spheres were disassociated, and then attached to the plate. Musk soluble components could induce NSC differentiation into glia-like cells and improve the transfection efficiency of pEGFP-C1 in vitro.