Marrow cell genetic phenotype change induced by human lung cancer cells

Abstract

11108 Background: Murine lung-derived microvesicles are capable of inducing lung-specific mRNA in marrow cells, when co-cultured across from these cells, but separated from them by a cell-impermeable (0.4 micron) membrane. These converted murine marrow cells showed mRNA elevations, lung-specific protein production and enhanced capacity to convert to lung epithelial cells after in vivo transplantation into irradiated mice. We examine here whether fresh tissue from lung cancer patients would have the same capacity to genetically alter co-cultured human marrow cells. Methods: Lung cancer samples were collected from 5 patients undergoing surgery. Minced tumor tissue at 50–100 mg was co-cultured in a semi-permeable culture plate insert opposite 3.0 ×106 human marrow cells. The marrow cells were harvested after 2–7 days of co-culture. Marrow cell RNA was analyzed for lung specific mRNA using real time RT-PCR. Relative levels of gene expression was expressed a fold increase compared to level in controls. Results: Lung cancers studied were adenocarcinoma, endobronchial alveolar carcinoma, bronchioloalveolar carcinoma, non-small cell carcinoma and squamous cell carcinoma. mRNAs for aquaporin 1–5, specific for type I pneumocytes and surfactant A-D, specific for type II pneumocytes, were measured. Aquaporin I was elevated in marrow cells from co culture with all lung cancers; elevations ranging from 2.15 to 56.7 fold (mean 23 fold). Similarly surfactant B mRNA was induced in marrow cells by all lung cancers with fold elevations ranging from 7.9 to 2164 (mean fold elevation 668). More variable elevations were also seen with aquaporin 3, 4, and 5, surfactant A, surfactant C, and surfactant D. Ultracentrifugation (28,000 g) of conditioned media from these cancers revealed the presence of microvesicles with diameters of 100–180 nm. Conclusions: These observations indicate that the genetic phenotype of cells in the vicinity of lung cancer cells can be altered and that these alterations might be mediated by microvesicle transfer of genetic information. No significant financial relationships to disclose.