Selective α v β 3 -Receptor Blockade Reduces Macrophage Infiltration and Restenosis After Balloon Angioplasty in the Atherosclerotic Rabbit

Abstract

Background —α _v β ₃ -Integrin receptors are upregulated in atherosclerotic arteries and play a key role in smooth muscle cell and possibly inflammatory cell migration. We hypothesized that after balloon angioplasty (BA) of atherosclerotic arteries, selective inhibition of the α _v β ₃ -receptor by XT199, a small-molecule, non–peptide-selective α _v β ₃ -receptor antagonist, would reduce restenosis. Methods and Results —After induction of focal atherosclerosis, rabbits underwent femoral BA and received XT199 (2.5 mg/kg IV bolus plus 2.5 mg · kg ⁻¹ · d ⁻¹ IV; n=19) or vehicle (n=20) for 14 days. At 28 days after BA, the XT199 group had a larger lumen (0.75±0.26 versus 0.57±0.20 mm ² , P =0.03) and a smaller neointimal area (0.49±0.18 versus 0.68±0.25 mm ² , P =0.01) than the vehicle group. Angiographic analysis confirmed a 30% to 40% reduction in restenosis. Arteries harvested at 28 days after BA did not show a reduction in intima plus media smooth muscle cell content but did show a 50% reduction in macrophage cell density in the XT199 group (716±452 versus 1458±989 cells/mm ² , P 2 , P Conclusions —Selective α _v β ₃ -receptor blockade for 14 days after BA in the focally atherosclerotic rabbit significantly reduced restenosis and limited macrophage infiltration and neovascularization in the vessel wall.