Percutaneous delivery of the gax gene inhibits vessel stenosis in a rabbit model of balloon angioplasty

The expression of gax, an anti-proliferative homeobox gene, is rapidly downregulated in vascular smooth muscle cells (VSMCs) following arterial injury. Here we performed percutaneous adenovirus-mediated gene transfer into the iliac arteries of normal rabbits using a channel balloon catheter to asses...

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Bibliographic Details
Published in:Cardiovascular research 1997-09, Vol.35 (3), p.536-546
Main Authors: Maillard, L, Van Belle, E, Smith, R C, Le Roux, A, Denéfle, P, Steg, G, Barry, J J, Branellec, D, Isner, J M, Walsh, K
Format: Article
Language:English
Subjects:
Adenoviridae
Angioplasty, Balloon
Animals
Arterial Occlusive Diseases - prevention & control
Arterial Occlusive Diseases - therapy
Cell Division
Gene Expression
Gene Transfer Techniques
Genes, Homeobox
Genetic Therapy - methods
Genetic Vectors
Humans
Iliac Artery
Muscle, Smooth, Vascular - cytology
Rabbits
Recurrence
Tunica Intima - cytology
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Summary:The expression of gax, an anti-proliferative homeobox gene, is rapidly downregulated in vascular smooth muscle cells (VSMCs) following arterial injury. Here we performed percutaneous adenovirus-mediated gene transfer into the iliac arteries of normal rabbits using a channel balloon catheter to assess the effects of gax overexpression on neointima formation, lumen diameter, reendothelialization and functional vasomotion. A channel balloon catheter was used to perform both the arterial injury and local gene delivery. In each animal both iliac arteries were randomly assigned to receive either an adenovirus expressing the gax gene (Ad-Gax) or the beta-galactosidase gene (Ad-beta gal). In a second group of animals arteries were randomly assigned to receive either Ad-beta gal or saline. At one month, angiography revealed 36% less luminal narrowing in the Ad-Gax-treated arteries relative to the Ad-beta gal-treated control arteries. Histological analysis revealed that the intimal/medial ratio (I/M) was reduced by 56% in the Ad-Gax group. Endothelium-dependent vasomotion was not affected by the gax gene transfer. In the second group, no statistically significant differences were found between the saline and the Ad-beta gal-treated vessels for any of these parameters. Percutaneous adenovirus delivery of the gax gene to rabbit iliac arteries following endothelial denudation and vessel wall injury reduces neointimal hyperplasia and luminal stenosis, but does not affect endothelium-dependent vasomotion. This study demonstrates that a VSMC transcription factor can potentially be utilized for the development of a molecular therapy for vascular disorders.
ISSN:0008-6363
DOI:10.1016/S0008-6363(97)00147-8