Inhibition of in-stent restenosis by oral copper chelation in porcine coronary arteries

doi:10.1152/ajpheart.00148.2006

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Am J Physiol Heart Circ Physiol 291: H2692-H2697, 2006. First published May 26, 2006; doi:10.1152/ajpheart.00148.2006
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Inhibition of in-stent restenosis by oral copper chelation in porcine coronary arteries

L. Mandinov,¹ K. L. Moodie,² A. Mandinova,¹ Z. Zhuang,² F. Redican,² D. Baklanov,² V. Lindner,¹ T. Maciag,¹^, M. Simons,² and E. D. de Muinck¹

¹Maine Medical Center Research Institute, Maine Medical Center, Scarborough, Maine; and ²Section of Cardiology, Angiogenesis Research Center, Dartmouth Medical School, Dartmouth-Hitchcock Medical Center, Hanover, New Hampshire

Submitted 8 February 2006 ; accepted in final form 16 May 2006

Stress-induced release of IL-1 ${alpha}$ and fibroblast growth factor-1is dependent on intracellular copper and is a major driver ofneointimal hyperplasia. Therefore, we assessed the effect oftetrathiomolybdate (TTM), a clinically proven copper chelator,on in-stent restenosis. Nine pigs were treated with TTM (5 mg/kgpo) twice daily for 2 wk before stent implantation and for 4wk thereafter, and nine pigs served as controls. In-stent restenosiswas assessed by quantitative coronary angiography (QCA), intravascularultrasound (IVUS), and histomorphometry. Serum ceruloplasminactivity was used as a surrogate marker of copper bioavailability.In TTM-treated animals, ceruloplasmin dropped 70 ± 10%below baseline levels. Baseline characteristics were comparablein TTM-treated and control animals. At 4-wk follow-up, all parametersrelevant to in-stent restenosis were significantly reduced inTTM-treated animals: minimal lumen diameter by QCA was 2.03± 0.57 and 1.47 ± 0.45 mm in TTM-treated and controlanimals, respectively (P < 0.05), percent stenosis diameterwas 39% less in TTM-treated animals (27.1 ± 16.6% vs.44.5 ± 16.1%, P < 0.05), minimal lumen area by IVUSwas 60% larger in TTM-treated animals (4.27 ± 1.56 vs.2.67 ± 1.19 mm², P < 0.05), and neointimal volumeby histomorphometry was 37% less in TTM-treated animals (34.9± 11.5 vs. 55.2 ± 19.6 mm³, P < 0.05). We concludethat systemic copper chelation with a clinically approved chelatorsignificantly inhibits in-stent restenosis.

inflammation; stent

Address for reprint requests and other correspondence: E. D. de Muinck, Angiogenesis Research Center, Dartmouth Medical School, Borwell Research Bldg. 734E, HB 7700, 1 Medical Center Dr., Lebanon, NH 03756 (e-mail: ebo.d.demuinck{at}dartmouth.edu)