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Nuclear protein-induced bending and flexing of the hypoxic response element of the rat vascular endothelial growth factor promoter

^* Department of Pharmacology and Center for Lung Biology, University of South Alabama College of Medicine, Mobile, Alabama, USA

¹Correspondence: Dept. of Pharmacology, University of South Alabama College of Medicine, MSB 3366, Mobile, AL 36688-0002, USA. E-mail: mgillesp{at}jaguar1.usouthal.edu

Bending and flexing of DNA may contribute to transcriptional regulation. Because hypoxia and other physiological signals induce formation of an abasic site at a key base within the hypoxic response element (HRE) of the vascular endothelial growth factor (VEGF) gene (FASEB J. 19, 387–394, 2005) and because abasic sites can introduce flexibility in model DNA sequences, in the present study we used a fluorescence resonance energy transfer–based reporter system to assess topological changes in a wild-type (WT) sequence of the HRE of the rat VEGF gene and in a sequence harboring a single abasic site mimicking the effect of hypoxia. Binding of the hypoxia-inducible transcriptional complex present in hypoxic pulmonary artery endothelial cell nuclear extract to the WT sequence failed to alter sequence topology whereas nuclear protein binding to the modified HRE engendered considerable sequence flexibility. Topological effects of nuclear proteins on the modified VEGF HRE were dependent on the transcription factor hypoxia-inducible factor-1 and on formation of a single-strand break at the abasic site mediated by the coactivator, Ref-1/Ape1. These observations suggest that oxidative base modifications in the VEGF HRE evoked by physiological signals could be a precursor to single-strand break formation that has an impact on gene expression by modulating sequence flexibility.—Breit, J. F., Ault-Ziel, K., Al-Mehdi, A.-B., Gillespie, M. N. Nuclear protein-induced bending and flexing of the hypoxic response element of the rat vascular endothelial growth factor promoter.

Key Words: DNA topography • VEGF expression