Intramural Administration of Translational Inhibitor Puromycin Upon Balloon Angioplasty Inhibits SMC Proliferation and Protein Synthesis-Vascular Proteome Profiling Analysis.
Priyanaka Boettger, Hansjörg Schwertz, Herbert Platsch, Ursula Mueller-Werdan, Karl Werdan, Michael Buerke
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引用次数: 0
Abstract
Introduction: Percutaneous transluminal coronary angioplasty (PTCA) is an effective procedure to decrease the severity of stenotic coronary atherosclerotic lesions. However, its long-term success is limited by the formation of restenosis or neointima by increased proliferation of smooth muscle cells (SMCs) and synthesis of extracellular matrix. Polypeptide growth factors are potent SMC mitogens and are involved in SMC proliferation and extracellular matrix (ECM) synthesis. In this line, inhibition of de novo protein synthesis might be beneficial.
Methods: We examined the effects of different concentrations of translational inhibitor puromycin on SMC proliferation and apoptosis, in vitro. Further, we examined the effects of local administration of puromycin in a rabbit balloon injury model of the iliac artery.
Results: Injection of puromycin or its vehicle was performed with an infusion-balloon catheter directly into the vessel wall during angioplasty. PTA in the vehicle group resulted in neointima formation 3 weeks after the vascular intervention. In contrast, puromycin treatment resulted in a significant reduction of intima-media ratio. We observed decreased elastin and collagen III synthesis in puromycin-treated animals. With proteomics, we could demonstrate reduced protein expression of lamin, vimentin, alpha-1 antitrypsin, alpha-actin allowing puromycin treatment. In in vitro experiments, puromycin decreased SMCs proliferation (i.e., BrdU incorporation) following FCS stimulation.
Perspective: Based on the data from our animal experiments, aministration of puromycin directly into the vessel wall during angioplasty may be effective in preventing or reducing restenosis in humans.
期刊介绍:
PROTEOMICS - Clinical Applications has developed into a key source of information in the field of applying proteomics to the study of human disease and translation to the clinic. With 12 issues per year, the journal will publish papers in all relevant areas including:
-basic proteomic research designed to further understand the molecular mechanisms underlying dysfunction in human disease
-the results of proteomic studies dedicated to the discovery and validation of diagnostic and prognostic disease biomarkers
-the use of proteomics for the discovery of novel drug targets
-the application of proteomics in the drug development pipeline
-the use of proteomics as a component of clinical trials.
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