Atherosclerosis regression and TP receptor inhibition: effect of S18886 on plaque size and composition--a magnetic resonance imaging study

doi:10.1093/eurheartj/ehi175

European Heart Journal Advance Access originally published online on February 25, 2005
European Heart Journal 2005 26(15):1557-1561; doi:10.1093/eurheartj/ehi175

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Atherosclerosis regression and TP receptor inhibition: effect of S18886 on plaque size and composition—a magnetic resonance imaging study

Juan F. Viles-Gonzalez¹^,2, Valentin Fuster², Roberto Corti³, Carolina Valdiviezo¹, Randolph Hutter¹, Stefano Corda⁴, Sunil X. Anand¹^,2 and Juan J. Badimon¹^,2^,*

¹Cardiovascular Biology Research Laboratory, Cardiovascular Institute, PO Box 1030, Mount Sinai School of Medicine, New York, NY 10029, USA
²The Cardiovascular Institute, Mount Sinai School of Medicine, New York, USA
³University Hospital of Zurich, Zurich Switzerland
⁴IRIS, Courbevoie, France

Received 4 October 2004; revised 14 January 2005; accepted 20 January 2005; online publish-ahead-of-print 25 February 2005.

^* Corresponding author. Tel: +1 212 241 8484; fax: +1 212 426 6962. E-mail address: juan.badimon{at}mssm.edu

Aims Endothelial dysfunction, platelet hyperactivity, and inflammationplay a crucial role in atherogenesis. A growing body of evidencesuggests that inhibition of the thromboxane A2 (TxA2 or TP)receptor may improve endothelial function and reduce the inflammatorycomponent of atherosclerosis in addition to its demonstratedantiplatelet activity. Consequently, we sought to assess theeffect of a novel TP receptor antagonist S18886, on atheroscleroticlesion progression and composition by serial non-invasive magneticresonance imaging (MRI).

Methods and results S18886 was compared with control in an experimentalmodel of established aortic atherosclerosis in New Zealand Whiterabbits (n=10). The animals underwent MRI of the abdominal aortaat the time of randomization and at the end of treatment. Subsequently,animals were euthanized and specimens were stained for histopathologyand immunohistochemistry with anti- ${alpha}$ -actin antibodies for vascularsmooth muscle cells (VSMC), anti-RAM-11 for macrophages, anti-caspase-3for apoptotic cells, anti-MMP-1 for metalloproteinases, andanti-endothelin-1 (ET-1) as a marker of endothelial dysfunction.MRI analysis revealed a significant reduction in total vesselarea (TVA) and vessel wall area (VWA) in the S18886 group (P<0.05).Immunostaining analysis showed a significant decrease in RAM-11,caspase-3, MMP-1, ET-1 and an increase in ${alpha}$ -actin in the treatedgroup (P<0.05 vs. control).

Conclusion Inhibition of the TP receptor by S18886 causes aregression of advanced atherosclerotic plaques. In addition,the reduction in the markers for macrophages, apoptotic cells,metalloproteinases, and endothelin-1 and the increase in VSMC,suggests that S18886 may not only halt the progression of atherosclerosis,but also transform lesions towards a more stable phenotype.The possibility of combining antithrombotic and antiatheroscleroticactivity by means of the administration of TP inhibitors deservesfurther investigation in a clinical setting.

Key Words: Thromboxane A2 • Thromboxane receptor • TP receptor • Atherosclerosis • Platelets • Antiplatelets • Magnetic resonance imaging • MRI

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