Experimental Investigation of HGF Inhibiting Glial Scar In Vitro

To study the inhibitory effect of Hepatocyte growth factor (HGF) on the responsive hyperplasia of damaged astrocytes in vitro. We prepared damaged model of astrocytes to simulate the responsive hyperplasia of damaged astrocytes in vivo by culturing astrocytes in vitro; After the first day of Ad-HGF transfection, astrocytes were scratched, then after the first, the third, and the fifth day of scratch, we detect the expression amount of astrocytes specific glial fibrillary acidic protein (GFAP) and the ratio of S-phase cells with flow cytometry, both of which can reflect the proliferation status of damaged astrocytes; After HGF was added in scratched astrocytes, the activity of SPK and MAPK (P42/44) were detected by autoradiography and immunoblotting test; After adding different concentrations of HGF protein in astrocytes cultured in different serum concentrations and adding diverse concentrations of HGF protein, SPK and SPK inhibitor DMS in scratched astrocytes, we detect cell proliferation with 3H-TDR incorporation. The first day after Ad-HGF transfected astrocytes were scratched, the amount of GFAP secreted by astrocytes were decreased significantly (P < 0.05), and the cells in S phase were declined obviously. HGF has bidirectional regulation on SPK of scratched astrocytes: increases the SPK activity when HGF in low dose, while inhibits when in high dose. In addition, DMS can block the signal passage; HGF had no effects on MAPK (P42/44) of damaged astrocytes cells. In conclusion, after the transfection of Ad-HGF, it can inhibit the responsive hyperplasia of damaged astrocytes by the means of blocking SPK passage.