Hypoxia-Specific Downregulation of Endogenous Human VEGF-A Gene by Hypoxia-Driven Expression of Artificial Transcription Factor

Abstract

Repression of vascular endothelial growth factor A (VEGF-A) is an attractive approach to cancer therapy. Although zinc-finger-based artificial transcription factors (ATFs) were constructed for human VEGF-A and constitutive expressions of ATFs were previously shown to downregulate the endogenous VEGF-A gene expression, repression of VEGF-A specifically in hypoxic tumors is desirable for therapeutic application of ATF technology. Here, we describe hypoxia-driven expression of the ATF for hypoxia-specific repression of human VEGF-A gene. We constructed a hypoxia-driven promoter for the ATF expression and placed it upstream of the ATF-encoding region. The resulting hypoxia-driven expression plasmids induced the expression of ATFs specifically in hypoxia, and the hypoxia-specific expression of ATFs effectively downregulated the VEGF-A expression in hypoxia, but not in normoxia. Thus, the engineered expression system of ATFs may enable repression of VEGF-A expression specifically in hypoxic tumors without affecting normal, healthy tissues.