Literature DB >> 19787299

Homocysteine modulates the proteolytic potential of human arterial smooth muscle cells through a reactive oxygen species dependant mechanism.

Xue Dan Ke1, Alexandrine Foucault-Bertaud, Cecile Genovesio, Francoise Dignat-George, Edouard Lamy, Philippe Charpiot.   

Abstract

Pathological levels of homocysteine induce a dramatic degradation of arterial elastic structures. This severe metalloproteinase-dependant elastolysis affects elastic structures all over the media suggesting that smooth muscle cells (SMC) may participate to this process induced by homocysteine. Therefore, we investigated the effect of physiological (10 microM) and pathological (50, 100, and 500 microM) concentrations of homocysteine on the metalloproteinase-dependant proteolytic potential of human arterial SMC in culture. Pathological levels of homocysteine increased concomitantly the secretion of latent MMP-2 and TIMP-2 while the secretion of other elastolytic matrix metalloproteinases (MMPs) and expression of MT1-MMP were not altered. The increased secretion of latent MMP-2 induced by homocysteine was associated with an increased production of reactive oxygen species (ROS). Moreover, the increased secretion of latent MMP-2 induced by homocysteine was inhibited by antioxidant superoxide dismutase alone or in combination with catalase. These results suggest that SMC could participate, through an oxidative stress dependant secretion of elastolytic MMP-2, to the metalloproteinase-dependant degradation of arterial elastic structures induced by homocysteine.

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Year:  2009        PMID: 19787299     DOI: 10.1007/s11010-009-0270-7

Source DB:  PubMed          Journal:  Mol Cell Biochem        ISSN: 0300-8177            Impact factor:   3.396


  34 in total

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Authors:  Marielle Chaussalet; Edouard Lamy; Alexandrine Foucault-Bertaud; Cecile Genovesio; Florence Sabatier; Françoise Dignat-George; Philippe Charpiot
Journal:  Biochem Biophys Res Commun       Date:  2004-03-26       Impact factor: 3.575
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7.  Atypical glomerulopathy associated with the cblE inborn error of vitamin B₁₂ metabolism.

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