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| Publications [#80117] of Christopher D. Kontos
Papers Published
- D Xie, Y Li, EA Reed, SI Odronic, CD Kontos, BH Annex, An engineered vascular endothelial growth factor-activating transcription factor induces therapeutic angiogenesis in ApoE knockout mice with hindlimb ischemia.,
Journal of vascular surgery, vol. 44 no. 1
(July, 2006),
pp. 166-75, ISSN 0741-5214 [doi]
(last updated on 2013/05/16)
Abstract:
OBJECTIVE: Angiogenesis is the growth and proliferation of blood vessels from existing vascular structures, and therapeutic angiogenesis seeks to promote blood vessel growth to improve tissue perfusion. Vascular endothelial growth factor (VEGF) is a prototypic angiogenic agent that exists in vivo in multiple isoforms, and studies with VEGF to date had used single isoform therapy with disappointing results. We tested plasmid and adenoviral vectors encoding a zinc-finger DNA-binding transcription factor (ZFP-32E) that was designed to increase the expression of all major VEGF isoforms in a preclinical model of peripheral arterial obstructive disease (PAOD) in hypercholesterolemic (ApoE knock-out) mice. METHODS: Unilateral femoral artery ligation/excision was performed in 117 mice. At 7 days postoperatively, the ischemic tibialis anterior (TA) and gastrocnemius (GAS) muscles received either ZFP-32E treatment (125 microg of plasmid, 2.5 x 10(11) viral particle units [vpu] of adenovirus; some mice received a second plasmid injection 3 days later) or no-ZFP treatment (125 microg of beta-galactosidase [beta-gal], a plasmid-lacking insert, or an equal dose of adenoviral encoding beta-gal; some mice received a second plasmid injection 3 days later). Group 1 mice (n = 31) were euthanized 3 days later, and VEGF messenger RNA (mRNA) and protein levels were measured. Group 2 mice (n = 38) were euthanized 7 days later, and measures of capillary density, cell proliferation, and apoptosis were quantified. Group 3 mice (n = 48) were euthanized 28 days later, and changes in lower limb blood flow perfusion were measured. RESULTS: In group 1, VEGF mRNA and protein levels were significantly higher in those with ZFP-32E treatment vs beta-gal. In group 2, capillary density and proliferating cells were significantly greater and apoptosis was significantly lower in those with ZFP-32E treatment vs beta-gal. Finally, in group 3, changes in the perfusion ratio (ischemic/nonischemic limb) at 21 days after injection were significantly greater in those with ZFP-32E treatment vs no-ZFP treatment. CONCLUSIONS: The ability of this engineered zinc-finger VEGF-activating transcription factor to induce therapeutic angiogenesis in hypercholesterolemic mice suggests this approach warrants investigation as a novel approach to treat PAOD.
Keywords:
Adenoviridae • Angiogenesis Inducing Agents • Animals • Apoptosis • Arterial Occlusive Diseases • Cell Proliferation • Gene Expression Regulation • Gene Transfer Techniques • Genetic Therapy • Genetic Vectors • Hindlimb • Immunohistochemistry • Ischemia • Mice • Mice, Knockout • Muscle, Skeletal • Neovascularization, Physiologic • Plasmids • Protein Engineering • Transcription Factors • Vascular Endothelial Growth Factor A • Zinc Fingers • blood supply • drug therapy • drug therapy* • genetics • metabolism • methods • methods* • pharmacology* • physiology*
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