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The Polyamine Pathway as a Potential Target for Vascular Diseases: Focus on Restenosis

[ Vol. 9 , Issue. 6 ]


Amalia Forte, Per Hellstrand, Bengt-Olof Nilsson, Mario Grossi, Francesco Rossi and Marilena Cipollaro   Pages 706 - 714 ( 9 )


Polyamines are organic polycations expressed by all living organisms, which are known to play an essential role in cell proliferation and differentiation. Recent studies revealed their involvement also in cell contractility and migration and in programmed cell death. These processes are known to contribute to restenosis, a pathophysiological process occurring in 10-20% of patients submitted to revascularization procedures. The advent of bare metal stents and of drugeluting stents has significantly reduced but not eliminated the incidence of restenosis, which thus remains a clinically relevant problem. Despite the potential role of the polyamine pathway as a therapeutic target due to its involvement in proliferation, apoptosis and migration of vascular cells, experimental inhibition of polyamine synthesis and/or uptake has been poorly investigated in animal models of vascular disease. Here we review the current knowledge about molecular mechanisms related to polyamine functions, with particular reference to the role played by polyamines in vascular cell pathophysiology, together with experimental evidence obtained so far in animal models of (re)stenosis. We also evaluate the advantages of different routes of administration of polyamine synthesis/transport inhibitors and polyamine analogue molecules. Increasing knowledge about the molecular mechanisms and functions of polyamines is expected to shed new light on their potential role as a therapeutic target for restenosis reduction.


Ornithine decarboxylase, arginase, DFMO, restenosis, neointima, negative remodelling, apoptosis, vascular homeostasis, inflammation, cell migration


Department of Experimental Medicine, Section of Biotechnology and Molecular Biology “A. Cascino”, Second University of Naples, Via L. De Crecchio, 7,80138 Naples, Italy.

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