Objective: To validate our obtained outcomes and clarify the relationship between CT120A, a novel human plasma membrane-associated gene, and proliferation of lung cancer cells.
Methods: A vector-based small hairpin RNA (shRNA) was transfected into the human lung adenocarcinoma SPC-A-1 cells to specifically target CT120A cDNA. RT-PCR and Western blotting were used to analyze the CT120A expression. The cell proliferation rate was analyzed by BrdU-TdR incorporation assay, the ability of cells to grow in soft agarose and the tumorigenicity in nude mice were measured. Flow cytometry was performed to analyze cell apoptosis.
Results: When compared with the scrambled control cell line, CT120A transcripts were reduced by 70% and 50% in two shRNA-H stable transfectants, H2 and H3 clones, respectively. The protein of CT120A was reduced by about 80% in both the H2 and H3 clones. By BrdU incorporation assay, up to the 6th day a dramatic decrease in the cell growth rate (30% to 40%) was observed in the shRNA-H2 and shRNA-H3 cell lines. The colony formation rate in soft agarose of the two cell lines was about one half that of the control cells. In addition, a remarkable reduction of tumorigenicity of the two cell lines was observed as compared with that of the control. The suppression of CT120A expression also sensitized cells to ultraviolet-induced apoptosis.
Conclusion: Down-regulation of CT120A by RNA interference suppresses lung cancer cell growth. The successful knockdown of CT120A expression by RNA interference implicates that CT120A may be a new candidate of drug target for treatment of lung cancers.