Differential regulation of extracellular matrix constituents in myocardial remodeling with and without heart failure following pressure overload

Patients with aortic stenosis develop various degrees of myocardial hypertrophy and heart failure (HF) despite comparable transvalvular gradients. An important element in the transition from compensated hypertrophy to HF is dilatation of the left ventricle (LV). The molecular pathology associated wi...

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Veröffentlicht in:	Matrix biology 2013-03, Vol.32 (2), p.133-142
Hauptverfasser:	Skrbic, Biljana, Bjørnstad, Johannes L., Marstein, Henriette S., Carlson, Cathrine R., Sjaastad, Ivar, Nygård, Ståle, Bjørnstad, Sigrid, Christensen, Geir, Tønnessen, Theis
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Schlagworte:	Animals Aortic stenosis Aortic Valve Stenosis - metabolism Aortic Valve Stenosis - pathology Collagen Disease Models, Animal Echocardiography Extracellular Matrix - metabolism Extracellular Matrix - pathology Heart failure Heart Failure - metabolism Heart Failure - pathology Heart Ventricles - metabolism Heart Ventricles - pathology Humans Hypertrophy - metabolism Hypertrophy - pathology Mice Myocardium - metabolism Myocardium - pathology Pressure Remodeling Ventricular Remodeling
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container_title	Matrix biology
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creator	Skrbic, Biljana Bjørnstad, Johannes L. Marstein, Henriette S. Carlson, Cathrine R. Sjaastad, Ivar Nygård, Ståle Bjørnstad, Sigrid Christensen, Geir Tønnessen, Theis
description	Patients with aortic stenosis develop various degrees of myocardial hypertrophy and heart failure (HF) despite comparable transvalvular gradients. An important element in the transition from compensated hypertrophy to HF is dilatation of the left ventricle (LV). The molecular pathology associated with LV dilatation and development of HF is not known. Thus, we examined potential differences in the regulation of myocardial extracellular matrix (ECM) constituents in mice with hypertrophy only (ABnonHF) and with HF (ABHF) as response to comparable pressure overload. The ascending aorta was banded, or left loose in sham-operated mice. Increased lung weight and left atrial diameter indicating pulmonary congestion were used to identify ABHF mice. Cardiac function and geometry were evaluated by echocardiography. Despite comparable pressure gradients and cardiac output, ABHF had reduced fractional shortening (23%), reduced systolic (28%) and diastolic (32%) tissue velocity and increased LV internal dimension in diastole (10%) and systole (17%) (LVIDd/s) compared to ABnonHF (p≤0.05). Microarray analyses identified 120 differently regulated genes related to ECM in ABHF compared to ABnonHF (p≤0.05). Interestingly, in ABHF, we found a 24% (p≤0.05) reduction of the LV collagen VIII protein levels despite increased levels of LV total collagen by 23% (p≤0.05). LV collagen VIII correlated negatively with LVIDd (R=0.55, p=0.03) and LVIDs (R=0.72, p=0.002). As this protein may function as a “sealant” binding collagen fibrils together, reduction of collagen VIII could potentially contribute to LV dilatation and development of HF. ► Level of left ventricular collagen VIII is reduced in animals with heart failure. ► Level of left ventricular collagen VIII correlates with left ventricular dilatation. ► Lack of collagen VIII might contribute to heart failure development in banded mice.
doi_str_mv	10.1016/j.matbio.2012.11.011
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An important element in the transition from compensated hypertrophy to HF is dilatation of the left ventricle (LV). The molecular pathology associated with LV dilatation and development of HF is not known. Thus, we examined potential differences in the regulation of myocardial extracellular matrix (ECM) constituents in mice with hypertrophy only (ABnonHF) and with HF (ABHF) as response to comparable pressure overload. The ascending aorta was banded, or left loose in sham-operated mice. Increased lung weight and left atrial diameter indicating pulmonary congestion were used to identify ABHF mice. Cardiac function and geometry were evaluated by echocardiography. Despite comparable pressure gradients and cardiac output, ABHF had reduced fractional shortening (23%), reduced systolic (28%) and diastolic (32%) tissue velocity and increased LV internal dimension in diastole (10%) and systole (17%) (LVIDd/s) compared to ABnonHF (p≤0.05). Microarray analyses identified 120 differently regulated genes related to ECM in ABHF compared to ABnonHF (p≤0.05). Interestingly, in ABHF, we found a 24% (p≤0.05) reduction of the LV collagen VIII protein levels despite increased levels of LV total collagen by 23% (p≤0.05). LV collagen VIII correlated negatively with LVIDd (R=0.55, p=0.03) and LVIDs (R=0.72, p=0.002). As this protein may function as a “sealant” binding collagen fibrils together, reduction of collagen VIII could potentially contribute to LV dilatation and development of HF. ► Level of left ventricular collagen VIII is reduced in animals with heart failure. ► Level of left ventricular collagen VIII correlates with left ventricular dilatation. ► Lack of collagen VIII might contribute to heart failure development in banded mice.</description><identifier>ISSN: 0945-053X</identifier><identifier>EISSN: 1569-1802</identifier><identifier>DOI: 10.1016/j.matbio.2012.11.011</identifier><identifier>PMID: 23220517</identifier><language>eng</language><publisher>Netherlands: Elsevier B.V</publisher><subject>Animals ; Aortic stenosis ; Aortic Valve Stenosis - metabolism ; Aortic Valve Stenosis - pathology ; Collagen ; Disease Models, Animal ; Echocardiography ; Extracellular Matrix - metabolism ; Extracellular Matrix - pathology ; Heart failure ; Heart Failure - metabolism ; Heart Failure - pathology ; Heart Ventricles - metabolism ; Heart Ventricles - pathology ; Humans ; Hypertrophy - metabolism ; Hypertrophy - pathology ; Mice ; Myocardium - metabolism ; Myocardium - pathology ; Pressure ; Remodeling ; Ventricular Remodeling</subject><ispartof>Matrix biology, 2013-03, Vol.32 (2), p.133-142</ispartof><rights>2012 International Society of Matrix Biology</rights><rights>Copyright © 2012 International Society of Matrix Biology. 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An important element in the transition from compensated hypertrophy to HF is dilatation of the left ventricle (LV). The molecular pathology associated with LV dilatation and development of HF is not known. Thus, we examined potential differences in the regulation of myocardial extracellular matrix (ECM) constituents in mice with hypertrophy only (ABnonHF) and with HF (ABHF) as response to comparable pressure overload. The ascending aorta was banded, or left loose in sham-operated mice. Increased lung weight and left atrial diameter indicating pulmonary congestion were used to identify ABHF mice. Cardiac function and geometry were evaluated by echocardiography. Despite comparable pressure gradients and cardiac output, ABHF had reduced fractional shortening (23%), reduced systolic (28%) and diastolic (32%) tissue velocity and increased LV internal dimension in diastole (10%) and systole (17%) (LVIDd/s) compared to ABnonHF (p≤0.05). Microarray analyses identified 120 differently regulated genes related to ECM in ABHF compared to ABnonHF (p≤0.05). Interestingly, in ABHF, we found a 24% (p≤0.05) reduction of the LV collagen VIII protein levels despite increased levels of LV total collagen by 23% (p≤0.05). LV collagen VIII correlated negatively with LVIDd (R=0.55, p=0.03) and LVIDs (R=0.72, p=0.002). As this protein may function as a “sealant” binding collagen fibrils together, reduction of collagen VIII could potentially contribute to LV dilatation and development of HF. ► Level of left ventricular collagen VIII is reduced in animals with heart failure. ► Level of left ventricular collagen VIII correlates with left ventricular dilatation. ► Lack of collagen VIII might contribute to heart failure development in banded mice.</description><subject>Animals</subject><subject>Aortic stenosis</subject><subject>Aortic Valve Stenosis - metabolism</subject><subject>Aortic Valve Stenosis - pathology</subject><subject>Collagen</subject><subject>Disease Models, Animal</subject><subject>Echocardiography</subject><subject>Extracellular Matrix - metabolism</subject><subject>Extracellular Matrix - pathology</subject><subject>Heart failure</subject><subject>Heart Failure - metabolism</subject><subject>Heart Failure - pathology</subject><subject>Heart Ventricles - metabolism</subject><subject>Heart Ventricles - pathology</subject><subject>Humans</subject><subject>Hypertrophy - metabolism</subject><subject>Hypertrophy - pathology</subject><subject>Mice</subject><subject>Myocardium - metabolism</subject><subject>Myocardium - pathology</subject><subject>Pressure</subject><subject>Remodeling</subject><subject>Ventricular Remodeling</subject><issn>0945-053X</issn><issn>1569-1802</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kcuKFjEQhYMozu_oG4hk6abbVNLXjSDjFQbcKLgLSboyk5905zdJz-UtfGTT9ujSVYriOzmcOoS8BFYDg-7NsZ5V1i7UnAGvAWoG8IgcoO3GCgbGH5MDG5u2Yq34cUaepXRkjDVNPzwlZ1xwzlroD-TXe2ctRlyyU55GvFq9yi4sNFiKdzkqg96XXaTFLbo7asKSsstrUSTqFjrfB6PitKvnMKF3yxW9dfmaqmX6M4Q102tUMVOrnF8jUhu8D7cbeIqY0rYKNxh9UNNz8sQqn_DFw3tOvn_88O3ic3X59dOXi3eXlREdz5XRtm80at3DYPkotG1KPKG16PtxNGg6zvmgRkQ7CtMZwTpgqFoLwpQBxTl5vf97iuHniinL2aUtrFowrElCOVEvAMRQ0GZHTQwpRbTyFN2s4r0EJrcu5FHuXcitCwkgSxdF9urBYdUzTv9Ef49fgLc7gCXnjcMok3G4GJxcRJPlFNz_HX4Dg8ahug</recordid><startdate>20130311</startdate><enddate>20130311</enddate><creator>Skrbic, Biljana</creator><creator>Bjørnstad, Johannes L.</creator><creator>Marstein, Henriette S.</creator><creator>Carlson, Cathrine R.</creator><creator>Sjaastad, Ivar</creator><creator>Nygård, Ståle</creator><creator>Bjørnstad, Sigrid</creator><creator>Christensen, Geir</creator><creator>Tønnessen, Theis</creator><general>Elsevier B.V</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>20130311</creationdate><title>Differential regulation of extracellular matrix constituents in myocardial remodeling with and without heart failure following pressure overload</title><author>Skrbic, Biljana ; Bjørnstad, Johannes L. ; Marstein, Henriette S. ; Carlson, Cathrine R. ; Sjaastad, Ivar ; Nygård, Ståle ; Bjørnstad, Sigrid ; Christensen, Geir ; Tønnessen, Theis</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c362t-cbf74bebb718f293bf40003bb37799cec62228a9eef93c6c30610ea5f13c10ee3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2013</creationdate><topic>Animals</topic><topic>Aortic stenosis</topic><topic>Aortic Valve Stenosis - metabolism</topic><topic>Aortic Valve Stenosis - pathology</topic><topic>Collagen</topic><topic>Disease Models, Animal</topic><topic>Echocardiography</topic><topic>Extracellular Matrix - metabolism</topic><topic>Extracellular Matrix - pathology</topic><topic>Heart failure</topic><topic>Heart Failure - metabolism</topic><topic>Heart Failure - pathology</topic><topic>Heart Ventricles - metabolism</topic><topic>Heart Ventricles - pathology</topic><topic>Humans</topic><topic>Hypertrophy - metabolism</topic><topic>Hypertrophy - pathology</topic><topic>Mice</topic><topic>Myocardium - metabolism</topic><topic>Myocardium - pathology</topic><topic>Pressure</topic><topic>Remodeling</topic><topic>Ventricular Remodeling</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Skrbic, Biljana</creatorcontrib><creatorcontrib>Bjørnstad, Johannes L.</creatorcontrib><creatorcontrib>Marstein, Henriette S.</creatorcontrib><creatorcontrib>Carlson, Cathrine R.</creatorcontrib><creatorcontrib>Sjaastad, Ivar</creatorcontrib><creatorcontrib>Nygård, Ståle</creatorcontrib><creatorcontrib>Bjørnstad, Sigrid</creatorcontrib><creatorcontrib>Christensen, Geir</creatorcontrib><creatorcontrib>Tønnessen, Theis</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>Matrix biology</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Skrbic, Biljana</au><au>Bjørnstad, Johannes L.</au><au>Marstein, Henriette S.</au><au>Carlson, Cathrine R.</au><au>Sjaastad, Ivar</au><au>Nygård, Ståle</au><au>Bjørnstad, Sigrid</au><au>Christensen, Geir</au><au>Tønnessen, Theis</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Differential regulation of extracellular matrix constituents in myocardial remodeling with and without heart failure following pressure overload</atitle><jtitle>Matrix biology</jtitle><addtitle>Matrix Biol</addtitle><date>2013-03-11</date><risdate>2013</risdate><volume>32</volume><issue>2</issue><spage>133</spage><epage>142</epage><pages>133-142</pages><issn>0945-053X</issn><eissn>1569-1802</eissn><abstract>Patients with aortic stenosis develop various degrees of myocardial hypertrophy and heart failure (HF) despite comparable transvalvular gradients. An important element in the transition from compensated hypertrophy to HF is dilatation of the left ventricle (LV). The molecular pathology associated with LV dilatation and development of HF is not known. Thus, we examined potential differences in the regulation of myocardial extracellular matrix (ECM) constituents in mice with hypertrophy only (ABnonHF) and with HF (ABHF) as response to comparable pressure overload. The ascending aorta was banded, or left loose in sham-operated mice. Increased lung weight and left atrial diameter indicating pulmonary congestion were used to identify ABHF mice. Cardiac function and geometry were evaluated by echocardiography. Despite comparable pressure gradients and cardiac output, ABHF had reduced fractional shortening (23%), reduced systolic (28%) and diastolic (32%) tissue velocity and increased LV internal dimension in diastole (10%) and systole (17%) (LVIDd/s) compared to ABnonHF (p≤0.05). Microarray analyses identified 120 differently regulated genes related to ECM in ABHF compared to ABnonHF (p≤0.05). Interestingly, in ABHF, we found a 24% (p≤0.05) reduction of the LV collagen VIII protein levels despite increased levels of LV total collagen by 23% (p≤0.05). LV collagen VIII correlated negatively with LVIDd (R=0.55, p=0.03) and LVIDs (R=0.72, p=0.002). As this protein may function as a “sealant” binding collagen fibrils together, reduction of collagen VIII could potentially contribute to LV dilatation and development of HF. ► Level of left ventricular collagen VIII is reduced in animals with heart failure. ► Level of left ventricular collagen VIII correlates with left ventricular dilatation. ► Lack of collagen VIII might contribute to heart failure development in banded mice.</abstract><cop>Netherlands</cop><pub>Elsevier B.V</pub><pmid>23220517</pmid><doi>10.1016/j.matbio.2012.11.011</doi><tpages>10</tpages></addata></record>
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subjects	Animals Aortic stenosis Aortic Valve Stenosis - metabolism Aortic Valve Stenosis - pathology Collagen Disease Models, Animal Echocardiography Extracellular Matrix - metabolism Extracellular Matrix - pathology Heart failure Heart Failure - metabolism Heart Failure - pathology Heart Ventricles - metabolism Heart Ventricles - pathology Humans Hypertrophy - metabolism Hypertrophy - pathology Mice Myocardium - metabolism Myocardium - pathology Pressure Remodeling Ventricular Remodeling
title	Differential regulation of extracellular matrix constituents in myocardial remodeling with and without heart failure following pressure overload
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