Enhancement of hypoxia-induced tumor cell death in vitro and radiation therapy in vivo by use of small interfering RNA targeted to hypoxia-inducible factor-1alpha.

Hypoxia-inducible factor-1alpha (HIF-1alpha) is an important transcriptional factor that is activated when mammalian cells experience hypoxia, a tumor microenvironmental condition that plays pivotal roles in tumor progression and treatment. In this study, we examined the idea of down-regulating HIF-1alpha in tumor cells for therapeutic gain. We show that the expression levels of HIF-1alpha can be significantly attenuated by use of the recently established small interfering RNA technology in combination with adenovirus-mediated gene transfer. Down-regulation of the HIF-1alpha protein enhanced hypoxia-mediated tumor cell apoptosis in vitro. Subcutaneous tumor growth was also prevented from cells with attenuated HIF-1alpha expression. In addition, intratumoral injection of adenovirus encoding the HIF-1alpha-targeted small interfering RNA had a small but significant effect on tumor growth when combined with ionizing radiation. Therefore, our results provide proof of HIF-1alpha as an effective target for anticancer therapy. They also suggest that an adenovirus-based small interfering RNA gene transfer approach may be a potentially effective adjuvant strategy for cancer treatment.

Duke Scholars

Author Fang Li Dermatology

Author John P. Kirkpatrick Radiation Oncology

Author Mark Wesley Dewhirst Radiation Oncology

Author Chuan-Yuan Li Dermatology