Abstract
Vascular endothelial growth factor (VEGF) proximal promoter region contains a poly G/C-rich element that is essential for basal and inducible VEGF expression. The guanine-rich strand on this tract has been shown to form the DNA G-quadruplex structure, whose stabilization by small molecules can suppress VEGF expression. We report here the nuclear magnetic resonance structure of the major intramolecular G-quadruplex formed in this region in K+ solution using the 22mer VEGF promoter sequence with G-to-T mutations of two loop residues. Our results have unambiguously demonstrated that the major G-quadruplex formed in the VEGF promoter in K+ solution is a parallel-stranded structure with a 1:4:1 loop-size arrangement. A unique capping structure was shown to form in this 1:4:1 G-quadruplex. Parallel-stranded G-quadruplexes are commonly found in the human promoter sequences. The nuclear magnetic resonance structure of the major VEGF G-quadruplex shows that the 4-nt middle loop plays a central role for the specific capping structures and in stabilizing the most favored folding pattern. It is thus suggested that each parallel G-quadruplex likely adopts unique capping and loop structures by the specific middle loops and flanking segments, which together determine the overall structure and specific recognition sites of small molecules or proteins.LAY SUMMARY: The human VEGF is a key regulator of angiogenesis and plays an important role in tumor survival, growth and metastasis. VEGF overexpression is frequently found in a wide range of human tumors; the VEGF pathway has become an attractive target for cancer therapeutics. DNA G-quadruplexes have been shown to form in the proximal promoter region of VEGF and are amenable to small molecule drug targeting for VEGF suppression. The detailed molecular structure of the major VEGF promoter G-quadruplex reported here will provide an important basis for structure-based rational development of small molecule drugs targeting the VEGF G-quadruplex for gene suppression.
Highlights
The human vascular endothelial growth factor (VEGF) is a pluripotent cytokine and a key regulator of angiogenesis
The nuclear magnetic resonance (NMR) results in the present study unequivocally demonstrated that the major intramolecular Gquadruplex formed in the VEGF proximal promoter in K+ solution is a parallel-stranded structure with a 1:4:1 loop-size arrangement
Unlike the 2-nt middle loop of the MYC G-quadruplex that stays in the groove, the 4-nt middle loop of the VEGF G-quadruplex stretches over the 50 tetrad to form a unique capping structure with the flanking segment
Summary
The human vascular endothelial growth factor (VEGF) is a pluripotent cytokine and a key regulator of angiogenesis. VEGF plays an important role in tumor survival, growth and metastasis [1,2]. It binds to VEGF receptors on the surfaces of endothelial cells to promote the formation of new blood vessels, or angiogenesis, which can promote tumor growth by providing oxygen and nutrients as well as provide escape routes for disseminating tumor cells [3,4]. The G-quadruplexes formed in oncogene promoters have been shown to be potential targets for small molecule drugs [24,25,26]. The existence of DNA G-quadruplex has been visualized on chromosomes
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