Decorin Mimic Inhibits Vascular Smooth Muscle Proliferation and Migration

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2013 Nov 27

PMID 24278482

Citations 24

Authors

Rebecca A Scott

John E Paderi

Michael Sturek

Alyssa Panitch

Affiliations

Soon will be listed here.

Abstract

Over the past 10 years, the number of percutaneous coronary intervention procedures performed in the United States increased by 33%; however, restenosis, which inhibits complete functional recovery of the vessel wall, complicates this procedure. A wide range of anti-restenotic therapeutics have been developed, although many elicit non-specific effects that compromise vessel healing. Drawing inspiration from biologically-relevant molecules, our lab developed a mimic of the natural proteoglycan decorin, termed DS-SILY, which can mask exposed collagen and thereby effectively decrease platelet activation, thus contributing to suppression of vascular intimal hyperplasia. Here, we characterize the effects of DS-SILY on both proliferative and quiescent human SMCs to evaluate the potential impact of DS-SILY-SMC interaction on restenosis, and further characterize in vivo platelet interactions. DS-SILY decreased proliferative SMC proliferation and pro-inflammatory cytokine secretion in vitro in a concentration dependent manner as compared to untreated controls. The addition of DS-SILY to in vitro SMC cultures decreased SMC migration and protein synthesis by 95% and 37%, respectively. Furthermore, DS-SILY decreased platelet activation, as well as reduced neointimal hyperplasia by 60%, in vivo using Ossabaw swine. These results indicate that DS-SILY demonstrates multiple biological activities that may all synergistically contribute to an improved treatment paradigm for balloon angioplasty.

Citing Articles

Biomimetic strategies for the deputization of proteoglycan functions.

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Synthesis and Optimization of Collagen-targeting Peptide-Glycosaminoglycans for Inhibition of Platelets Following Endothelial Injury.

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Differential Proteoglycan Expression in Atherosclerosis Alters Platelet Adhesion and Activation.

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Proteoglycans and proteoglycan mimetics for tissue engineering.

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