The effect of down regulation of calcineurin Aα by lentiviral vector-mediated RNAi on the biological behavior of small-cell lung cancer and its bone metastasis.

Bone is the third most common site of cancer metastasis. Over 30 to 40% of lung cancers can develop skeletal metastasis and no effective curative therapy exists in clinic cases. Previously we screened the different expression of proteins between SBC-5 cells and SBC-3 cells by proteomic study methods (MALDI-TOF/TOF-MS) and found that calcineurin (hereafter referred as Cn) overexpresses in SBC-5 which has special priority in metastasis to bone in a multiple-organ metastasis mice model. However the roles of Cn in osteotropism of SCLC remain to be elucidated. At present study, we decrease CnAα expression in SBC-5 by lentiviral vector-mediated RNAi and found that down regulation of CnAα gene expression can decrease the proliferation and colony formation rate, impede the cell cycle progression, reduce the cell migration and invasion, and inhibit cells adhering to bone matrix, but not change the apoptosis rate of SBC-5 in vitro. In vivo down or up regulation of CnAα gene expression can only decrease or increase the bone metastasis rate, but not affect the metastasis rate to the visceral organs. Our research reveals that CnAα is closely related to the osteotropism metastasis of SCLC and a candidate tumor promotor gene for developing bone metastases.

Calcineurin promotes proliferation, migration, and invasion of small cell lung cancer.

A novel role for calcineurin (Cn) has been reported recently regarding the oncogenic potential in pancreatic and colorectal cancer. The aim of this study was to investigate the putative causal role calcineurin could play in the development of lung cancer with bone metastases. We found that CnAalpha, an isoform of calcineurin, was significantly overexpressed in lung cancer tissues with bone metastasis as compared to tumors with non-bone metastases as investigated by RT-PCR. Strong nuclear staining of tumor cells was observed in small cell lung cancer tissues with bone metastasis. Conversely, cytoplasmic staining of tumor cells was observed in small cell lung cancer tissues with non-bone metastasis. Western blots of nuclear proteins from lung cancer tissues indicated that CnAalpha was highly expressed in lung cancer tissues with bone metastases, but not in those with non-bone metastases. In vitro, it was demonstrated that the CnAalpha gene obviously promoted cell proliferation and inhibited cell apotosis. The CnAalpha gene affected the cell cycle and promoted G1[Symbol: see text]S transition in SBC-3 cells. Transfection with the CnAalpha gene promoted cell migration and invasion. These results indicated that CnAalpha may affect the biological behavior of the human small cell lung cancer cell line SBC-3 in vitro and may be a candidate tumor promotor gene for developing bone metastases.