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(Circulation. 1996;94:3291-3302.)
© 1996 American Heart Association, Inc.

Articles

Accelerated Restitution of Endothelial Integrity and Endothelium-Dependent Function After phVEGF₁₆₅ Gene Transfer

Takayuki Asahara, MD; Donghui Chen, MD; Yukio Tsurumi, MD; Marianne Kearney, BS; Susan Rossow, BS; Jonathan Passeri, BS; James F. Symes, MD; Jeffrey M. Isner, MD

the Departments of Medicine (Cardiology) (T.A., D.C., Y.T., J.M.I.), Surgery (Cardiovascular) (J.F.S.), and Biomedical Research (M.K., S.R., J.P.), St Elizabeth's Medical Center, Tufts University School of Medicine, Boston, Mass.

Correspondence to Jeffrey M. Isner, MD, St Elizabeth's Medical Center, 736 Cambridge St, Boston, MA 02135. E-mail jisner@opal.tufts.edu.

Background Delinquent reendothelialization (rET) has been shown to have a permissive, if not facilitatory, impact on smooth muscle cell proliferation. This inverse relation has been attributed to certain functions of the endothelium, including barrier regulation of permeability, thrombogenicity, and leukocyte adherence, as well as production of growth-inhibitory molecules. Accordingly, the present investigation was designed to test the hypothesis that an endothelial cell (EC) mitogen could serve as the basis for a novel gene therapy strategy designed to facilitate EC regeneration, reduce neointimal thickening, and promote recovery of EC dysfunction after balloon injury.

Methods and Results New Zealand White rabbits underwent simultaneous balloon injury and gene transfer of one femoral artery with phVEGF₁₆₅, encoding the 165–amino acid isoform of vascular endothelial growth factor (VEGF), or pGSVLacZ. In each animal transfected with phVEGF₁₆₅ or pGSVLacZ, the contralateral femoral artery was also subjected to balloon injury but not to gene transfer. For pGSVLacZ, rET remained incomplete at 4 weeks after transfection; in contrast, phVEGF₁₆₅ produced prompt rET, which was 95% complete by 1 week. Furthermore, rET in the contralateral, balloon-injured, nontransfected limb of the VEGF group was similarly accelerated. Consequently, intimal thickening was diminished, thrombotic occlusion was less frequent, and recovery of EC-dependent vasomotor reactivity was accelerated in VEGF transfectants compared with control animals. A similar benefit was observed for the contralateral, balloon-injured, nontransfected limb.

Conclusions Catheter-mediated, site-specific arterial gene transfer of phVEGF₁₆₅ can accelerate rET at local and remote sites, leading to inhibition of neointimal thickening, reduction in thrombogenicity, and restoration of endothelium-dependent vasomotor reactivity. These findings support the notion that gene transfer encoding for an EC-specific mitogen may be useful for preventing the complications, including restenosis, of balloon angioplasty.

Key Words: endothelium • remodeling • genes • angioplasty

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