Regulation of gene expression in prostate cancer cells with an artificially constructed promoter responsive to radiation

Abstract

A promoter library was developed that is composed of DNA fragments constructed by randomly elongating the cis-acting elements of transcription factors presumably activated in prostate cancer by radiation, and linking to the TATA-box sequence. One promoter with the strongest reactivity to X-ray in the LNCap cells of the library was chosen and improved by the introduction of random mutations. The resultant promoter was designated clone 880-8, showing the highest dose-dependent activity enhancement with X-ray irradiation (X-irradiation). A recombinant retrovirus expressing the luciferase gene under the control of clone 880-8 was infected into LNCap cells that showed 9.12±0.36-fold enhancement of luciferase activity 12 h after X-irradiation at 10 Gy. When the infected cells were inoculated onto nude mice, enhancement of luciferase expression was 4.27±1.36-fold 12 h after X-irradiation at 10 Gy. When LNCap was infected with another recombinant carrying the fcy::fur gene downstream from clone 880-8, fcy::fur expression was enhanced by X-irradiation. It was also shown to increase the dose-dependent cell killing ratio with 5-FC as compared with a counterpart without X-irradiation. These results suggest that the method used in this study is effective to construct a promoter responsive to stimulation. Such promoters can be used for stimulation-controlled gene therapies.