The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.

The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.

Vascular calcification is a complex and dynamic process occurring in various physiological conditions such as aging and exercise or in acquired metabolic disorders like diabetes or chronic renal insufficiency. Arterial calcifications are also observed in several genetic diseases revealing the import...

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Main Authors: Georges eLeftheriotis, Loukman eOmarjee, Olivier eLe Saux, Daniel eHenrion, Pierre eAbraham, Fabrice ePrunier, Serge eWilloteaux, Ludovic eMartin
Format: Article
Language:English
Published: Frontiers Media S.A. 2013-02-01
Series:Frontiers in Genetics
Subjects:
Calcium
Cardiovascular Diseases
Elastic Tissue
Pseudoxanthoma Elasticum
Vessels
ankle-brachial index
Online Access:http://journal.frontiersin.org/Journal/10.3389/fgene.2013.00004/full
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spelling doaj-2002d8fb601f48a58835cea2d6b609c92020-11-24T22:02:27ZengFrontiers Media S.A.Frontiers in Genetics1664-80212013-02-01410.3389/fgene.2013.0000439141The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.Georges eLeftheriotis0Georges eLeftheriotis1Georges eLeftheriotis2Loukman eOmarjee3Olivier eLe Saux4Daniel eHenrion5Pierre eAbraham6Pierre eAbraham7Fabrice ePrunier8Serge eWilloteaux9Ludovic eMartin10Ludovic eMartin11PRES L'UNAM, University Hospital of AngersPXE Health and Care CentrePRES L'UNAM, Medical School of Angers, UMR CNRS 6214 - Inserm 1083PRES L'UNAM, University Hospital of AngersUniversity of HawaiiPRES L'UNAM, Medical School of Angers, UMR CNRS 6214 - Inserm 1083PRES L'UNAM, University Hospital of AngersPRES L'UNAM, Medical School of Angers, UMR CNRS 6214 - Inserm 1083PXE Health and Care CentrePXE Health and Care CentrePXE Health and Care CentrePRES L'UNAM, Medical School of Angers, UMR CNRS 6214 - Inserm 1083Vascular calcification is a complex and dynamic process occurring in various physiological conditions such as aging and exercise or in acquired metabolic disorders like diabetes or chronic renal insufficiency. Arterial calcifications are also observed in several genetic diseases revealing the important role of unbalanced or defective anti- or pro-calcifying factors. Pseudoxanthoma elasticum (PXE) is an inherited disease (OMIM 264800) characterized by elastic fiber fragmentation and calcification in various soft conjunctive tissues including the skin, eyes and arterial media. The PXE disease results from mutations in the ABCC6 gene, encoding an ATP-binding cassette transporter primarily expressed in the liver, kidneys suggesting that it is a prototypic metabolic soft-tissue calcifying disease of genetic origin. The clinical expression of the PXE arterial disease is characterized by an increased risk for coronary (myocardial infarction), cerebral (aneurysm and stroke) and lower limb peripheral artery disease. However, the structural and functional changes in the arterial wall induced by PXE are still unexplained. The use of a recombinant mouse model inactivated for the Abcc6 gene is an important tool for the understanding of the PXE pathophysiology although the vascular impact in this model remains limited to date. Overlapping of the PXE phenotype with other inherited calcifying diseases could bring important informations to our comprehension of the PXE disease.http://journal.frontiersin.org/Journal/10.3389/fgene.2013.00004/fullCalciumCardiovascular DiseasesElastic TissuePseudoxanthoma ElasticumVesselsankle-brachial index
collection DOAJ
language English
format Article
sources DOAJ
author Georges eLeftheriotis
Georges eLeftheriotis
Georges eLeftheriotis
Loukman eOmarjee
Olivier eLe Saux
Daniel eHenrion
Pierre eAbraham
Pierre eAbraham
Fabrice ePrunier
Serge eWilloteaux
Ludovic eMartin
Ludovic eMartin
spellingShingle Georges eLeftheriotis
Georges eLeftheriotis
Georges eLeftheriotis
Loukman eOmarjee
Olivier eLe Saux
Daniel eHenrion
Pierre eAbraham
Pierre eAbraham
Fabrice ePrunier
Serge eWilloteaux
Ludovic eMartin
Ludovic eMartin
The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
Frontiers in Genetics
Calcium
Cardiovascular Diseases
Elastic Tissue
Pseudoxanthoma Elasticum
Vessels
ankle-brachial index
author_facet Georges eLeftheriotis
Georges eLeftheriotis
Georges eLeftheriotis
Loukman eOmarjee
Olivier eLe Saux
Daniel eHenrion
Pierre eAbraham
Pierre eAbraham
Fabrice ePrunier
Serge eWilloteaux
Ludovic eMartin
Ludovic eMartin
author_sort Georges eLeftheriotis
title The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
title_short The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
title_full The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
title_fullStr The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
title_full_unstemmed The vascular phenotype in pseudoxanthoma elasticum and related disorders: Contribution of a genetic disease to the understanding of vascular calcification.
title_sort vascular phenotype in pseudoxanthoma elasticum and related disorders: contribution of a genetic disease to the understanding of vascular calcification.
publisher Frontiers Media S.A.
series Frontiers in Genetics
issn 1664-8021
publishDate 2013-02-01
description Vascular calcification is a complex and dynamic process occurring in various physiological conditions such as aging and exercise or in acquired metabolic disorders like diabetes or chronic renal insufficiency. Arterial calcifications are also observed in several genetic diseases revealing the important role of unbalanced or defective anti- or pro-calcifying factors. Pseudoxanthoma elasticum (PXE) is an inherited disease (OMIM 264800) characterized by elastic fiber fragmentation and calcification in various soft conjunctive tissues including the skin, eyes and arterial media. The PXE disease results from mutations in the ABCC6 gene, encoding an ATP-binding cassette transporter primarily expressed in the liver, kidneys suggesting that it is a prototypic metabolic soft-tissue calcifying disease of genetic origin. The clinical expression of the PXE arterial disease is characterized by an increased risk for coronary (myocardial infarction), cerebral (aneurysm and stroke) and lower limb peripheral artery disease. However, the structural and functional changes in the arterial wall induced by PXE are still unexplained. The use of a recombinant mouse model inactivated for the Abcc6 gene is an important tool for the understanding of the PXE pathophysiology although the vascular impact in this model remains limited to date. Overlapping of the PXE phenotype with other inherited calcifying diseases could bring important informations to our comprehension of the PXE disease.
topic Calcium
Cardiovascular Diseases
Elastic Tissue
Pseudoxanthoma Elasticum
Vessels
ankle-brachial index
url http://journal.frontiersin.org/Journal/10.3389/fgene.2013.00004/full
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