THE ROLE OF RECOMBINANT Rb GENE ADENOVIRUS VECTOR IN THE GROWTH OF LUNG ADENOCARCINOMA CELLS*
Abstract
Objective: To study the role of the most extensively studied tumor suppressor gene, retinoblastoma (Rb) gene, on the growth of lung adenocarcinoma cell line GLC-82 and explore a gene therapy approach for lung adenocarcinoma.
Methods: The recombinant Rb gene adenovirus vector was constructed, the control virus which carries LacZ gene was producted by the same method. Infection effects were detected by biochemical staining of β-gal and immunohistochemical analysis of Rb protein. The Rb cDNA of infected cells were determined by PCR. The cell growth rate and cell cycle were observed by cell-counting and flow cytometry.
Results: The constructed recombinant adenovirus vector could infect effectively the cells with high level expression of Rb cDNA and Rb protein. The transfection of wild-type Rb gene could suppress GLC-82 cell proliferation and decrease the cellular DNA synthesis.
Conclusions: These results showed the possibility of using recombinant Rb gene adenovirus vector in the gene therapy of cancer to inhibit the growth of cancer.
Methods: The recombinant Rb gene adenovirus vector was constructed, the control virus which carries LacZ gene was producted by the same method. Infection effects were detected by biochemical staining of β-gal and immunohistochemical analysis of Rb protein. The Rb cDNA of infected cells were determined by PCR. The cell growth rate and cell cycle were observed by cell-counting and flow cytometry.
Results: The constructed recombinant adenovirus vector could infect effectively the cells with high level expression of Rb cDNA and Rb protein. The transfection of wild-type Rb gene could suppress GLC-82 cell proliferation and decrease the cellular DNA synthesis.
Conclusions: These results showed the possibility of using recombinant Rb gene adenovirus vector in the gene therapy of cancer to inhibit the growth of cancer.