OBJECTIVETo investigate the effect of nucleolin silencing on the differentiation of rat neural stem cells (NSCs) and the role of Wnt signaling pathway in mediating such effect.

METHODSAdenovirus vectors expressing small interfering RNA (siRNA) against nucleolin were constructed, verified, and packaged in HEK293A cells. The adenovirus was then transfected into NSCs isolated from neonatal SD rats and the differentiation of the NSCs was examined by detecting the expressions of neuron specific encloase (NSE) and glial fibrillary acidic protein (GFAP) using immunocytochemistry. The expressions of nucleolin, nestin, Wnt3, and β-catenin in the cells were determined with Western blotting.

RESULTSRestriction endonuclease and sequencing analysis verified successful construction of the adenoviral vector expressing nucleolin siRNA (nucleolin-siRNA2). Infection of rat NSCs with nucleolin-siRNA2 significantly lowered nucleolin protein expression as compared with that in negative and blank control groups (P<0.05). The percentages of NSE-positive cells and GFAP-positive cells were significantly higher in NSCs infected with nucleolin-siRNA (P<0.01); the infection also resulted in obviously lowered expression of nestin protein and increased expressions of Wnt3 protein and β-catenin nucleoprotein in the cells.

CONCLUSIONSNucleolin silencing by adenovirus-mediated RNA interference induces the differentiation of NSCs into neurons and astrocytes, which is related with the activation of Wnt signaling pathway.