Utility of the alpha-fetoprotein (afp) promoter for gene therapy against hepatocellular carcinoma (HCC) is limited because of the weak promoter activity. To circumvent this, the 5.1-kb 5;-flanking sequence of the human afp gene including the entire enhancer and silencer regions as well as the promoter region was employed for achieving strong, HCC-selective transgene expression. To thoroughly inhibit the promoter activity of the 5;-flanking sequence of the human afp gene, the afp 5;-flanking region was inserted downstream of the human interleukin-2 (il-2) gene controlled by the simian-virus-40 (SV40) early promoter. il-2-production ability of HCC cells transduced with the construct was significantly enhanced compared with that transduced with the same construct lacking the afp 5;-flanking region. Importantly, il-2 production of non-HCC cells was substantially inhibited by the addition of the afp 5;-flanking region to the construct. When the afp 5;-flanking region was inserted downstream of the human tumor-necrosis-factor-alpha (tnf-alpha) gene controlled by the retrovirus long-terminal-repeat (LTR) enhancer/promoter, tnf-alpha production ability of HCC cells was significantly enhanced and that of non-HCC cells was significantly suppressed compared with that transduced with the same construct lacking the afp 5;-flanking region. Our results indicated that the afp 5;-flanking region gave the enhanced HCC-selective activity to the non-tissue specific SV40 early promoter and LTR enhancer/promoter. It is essential for successful gene therapy to induce strong, target-cell-selective transgene expression. This novel strategy, therefore, may contribute to the establishment of HCC-selective cancer gene therapy.
Copyright 2000 Wiley-Liss, Inc.