Inhibition of Cell-surface Molecular GPR87 With GPR87-suppressing Adenoviral Vector Disturb Tumor Proliferation in Lung Cancer Cells.

BACKGROUND/AIM: GPR87 is a member of the cell surface molecular G protein-coupled receptors (GPCR) family and suggested to contribute to the viability of human tumor cells. Its tumor-specific expression and cell surface location make it a potential molecule for targeted therapy. In the present study, we aimed to examine the effect of silencing GPR87 expression and explore the possibility of establishing gene therapy against GPR87-overexpressing lung cancer. MATERIALS AND METHODS: Twenty malignant cell lines were investigated and GPR87-overexpressing H358 and PC9 lung cancer cells were subjected to inhibiting experiments. A short hairpin siRNA targeting the GPR87 gene was transformed into an adenoviral vector (Ad-shGPR87). Real-time RT-PCR and western blot analyses were performed to evaluate gene and protein expression. Tumors derived from human H358 cells were subcutaneously implanted in nude mice for in vivo experiments. RESULTS AND CONCLUSION: About 50% (10/20) malignant cells showed GPR87-overexpression, especially for lung cancer cells (70%, 7/10). Ad-shGPR87 effectively down-regulated the GPR87 expression, and significantly inhibited the cell proliferation in GPR87-overexpressing H358 and PC9 cells. Treatment with Ad-shGPR87 exerted a significant antitumor effect against the GPR87-expressing H358 xenografts. In addition, the gene expression of H3.3, a recently proved activator for GPR87 transcription, was positively correlated with GPR87 gene expression. Furthermore, a significant decrease of KRAS and c-Myc expression was observed in both cell lines after Ad-shGPR87 infection. In conclusion, GPR87 may play a critical role in cancer cell proliferation, and indicate its potential as a novel target for lung cancer treatment.