[Secretory expression vector V-pLNCX-s-hri inhibits the growth of mouse B16 melanoma].

ABSTRACT

BACKGROUND AND OBJECTIVE: Human ribonuclease inhibitor (hRI) extracted and purified from human placenta has been shown to remarkably inhibit some solid tumors in mice. This study was to construct V-pLNCX-s-hri, a secretory expression vector, and explore its inhibition effects on the growth of mouse B16 melanoma cells. METHODS: The hRI gene sequence conjugated with the synthesized signal peptide of mouse IgG was cloned into the retroviral vector V-pLNCX to construct V-pLNCX-s-hri. The PA317 cells were used for viral package and NIH3T3 cells were employed to determine the viral titer. The expression of hRI gene was detected by RT-PCR and Western blot. The content of RI was determined by enzyme-linked immunoabsorption assay (ELISA). The model of B16 melanoma-carrying mouse was established and received different treatments. The tumor weight and microvessle density (MVD) were assessed. Normal saline (NS), V-pLNCX, and V-pLNCX-hri were used as controls. RESULTS: The infection efficiency of V-pLNCX-s-hri on cultured B16 cells reached 38.5%. mRNA and protein levels of hRI were detected in B16 cells infected by V-pLNCX-s-hri. The hRI content in the supernatant of infected B16 cells reached 0.228 microg/mL. The hRI content in the peripheral blood of experimental mice was significantly higher in the V-pLNCX-s-hri group (0.249 microg/mL) than in the NS group (0.035 microg/mL), V-pLNCX group (0.028 microg/mL) and V-pLNCX-hri group (0.169 microg/mL) (P<0.01). The tumor weight and MVD were significantly lower in the V-pLNCX-s-hri group compared with those in the NS, V-pLNCX and V-pLNCX-hri groups (P>0.01). CONCLUSIONS: V-pLNCX-s-hri can effectively infect B16 cells and induce high expression of hRI. V-pLNCX-s-hri is superior to V-pLNCX-hri in inhibiting the growth of B16 cells.