Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure

Andrea Raso; Ellen Dirkx; Leonne E. Philippen; Amaya Fernandez-Celis; Federica De Majo; Vasco Sampaio-Pinto; Marida Sansonetti; Rio Juni; Hamid el Azzouzi; Martina Calore; Nicole Bitsch; Serve Olieslagers; Martinus I. F. J. Oerlemans; Manon M. Huibers; Roel A. de Weger; Yolan J. Reckman; Yigal M. Pinto; Lorena Zentilin; Serena Zacchigna; Mauro Giacca; Paula A. da Costa Martins; Natalia Lopez-Andres; Leon J. De Windt

doi:10.1016/j.ymthe.2018.11.011

Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure

Andrea Raso, Ellen Dirkx, Leonne E. Philippen, Amaya Fernandez-Celis, Federica De Majo, Vasco Sampaio-Pinto, Marida Sansonetti, Rio Juni, Hamid el Azzouzi, Martina Calore, Nicole Bitsch, Serve Olieslagers, Martinus I. F. J. Oerlemans, Manon M. Huibers, Roel A. de Weger, Yolan J. Reckman, Yigal M. Pinto, Lorena Zentilin, Serena Zacchigna, Mauro GiaccaPaula A. da Costa Martins, Natalia Lopez-Andres, Leon J. De Windt^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Heart failure is preceded by ventricular remodeling, changes in left ventricular mass, and myocardial volume after alterations in loading conditions. Concentric hypertrophy arises after pressure overload, involves wall thickening, and forms a substrate for diastolic dysfunction. Eccentric hypertrophy develops in volume overload conditions and leads wall thinning, chamber dilation, and reduced ejection fraction. The molecular events underlying these distinct forms of cardiac remodeling are poorly understood. Here, we demonstrate that miR-148a expression changes dynamically in distinct subtypes of heart failure: while it is elevated in concentric hypertrophy, it decreased indilated cardiomyopathy. In line, antagomir-mediated silencing of miR-148a caused wall thinning, chamber dilation, increased left ventricle volume, and reduced ejection fraction. Additionally, adeno-associated viral delivery of miR-148a protected themouse heart from pressure-overload-induced systolic dysfunction by preventing the transition of concentric hypertrophic remodeling toward dilation. Mechanistically, miR-148a targets the cytokine co-receptor glycoprotein 130 (gp130) and connects cardiomyocyte responsiveness to extracellular cytokines by modulating the Stat3 signaling.

These findings show the ability of miR-148a to prevent the transition of pressure-overload induced concentric hypertrophic remodeling toward eccentric hypertrophy and dilated cardiomyopathy and provide evidence for the existence of separate molecular programs inducing distinct forms of myocardial remodeling.

Original language	English
Pages (from-to)	584-599
Number of pages	16
Journal	Molecular Therapy
Volume	27
Issue number	3
DOIs	https://doi.org/10.1016/j.ymthe.2018.11.011
Publication status	Published - 6 Mar 2019

Keywords

BRAIN NATRIURETIC PEPTIDE
CARDIAC-HYPERTROPHY
EXPRESSION
GENE
GP130
IN-VIVO
INTERLEUKIN-6 FAMILY
MYOCYTES
PLASMA CARDIOTROPHIN-1
SURVIVAL

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Raso, A., Dirkx, E., Philippen, L. E., Fernandez-Celis, A., De Majo, F., Sampaio-Pinto, V., Sansonetti, M., Juni, R., el Azzouzi, H., Calore, M., Bitsch, N., Olieslagers, S., Oerlemans, M. I. F. J., Huibers, M. M., de Weger, R. A., Reckman, Y. J., Pinto, Y. M., Zentilin, L., Zacchigna, S., ... De Windt, L. J. (2019). Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure. Molecular Therapy, 27(3), 584-599. https://doi.org/10.1016/j.ymthe.2018.11.011

@article{2359fb39c01a4c7185c2250b4e139575,

title = "Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure",

abstract = "Heart failure is preceded by ventricular remodeling, changes in left ventricular mass, and myocardial volume after alterations in loading conditions. Concentric hypertrophy arises after pressure overload, involves wall thickening, and forms a substrate for diastolic dysfunction. Eccentric hypertrophy develops in volume overload conditions and leads wall thinning, chamber dilation, and reduced ejection fraction. The molecular events underlying these distinct forms of cardiac remodeling are poorly understood. Here, we demonstrate that miR-148a expression changes dynamically in distinct subtypes of heart failure: while it is elevated in concentric hypertrophy, it decreased indilated cardiomyopathy. In line, antagomir-mediated silencing of miR-148a caused wall thinning, chamber dilation, increased left ventricle volume, and reduced ejection fraction. Additionally, adeno-associated viral delivery of miR-148a protected themouse heart from pressure-overload-induced systolic dysfunction by preventing the transition of concentric hypertrophic remodeling toward dilation. Mechanistically, miR-148a targets the cytokine co-receptor glycoprotein 130 (gp130) and connects cardiomyocyte responsiveness to extracellular cytokines by modulating the Stat3 signaling.These findings show the ability of miR-148a to prevent the transition of pressure-overload induced concentric hypertrophic remodeling toward eccentric hypertrophy and dilated cardiomyopathy and provide evidence for the existence of separate molecular programs inducing distinct forms of myocardial remodeling.",

keywords = "BRAIN NATRIURETIC PEPTIDE, CARDIAC-HYPERTROPHY, EXPRESSION, GENE, GP130, IN-VIVO, INTERLEUKIN-6 FAMILY, MYOCYTES, PLASMA CARDIOTROPHIN-1, SURVIVAL",

author = "Andrea Raso and Ellen Dirkx and Philippen, {Leonne E.} and Amaya Fernandez-Celis and {De Majo}, Federica and Vasco Sampaio-Pinto and Marida Sansonetti and Rio Juni and {el Azzouzi}, Hamid and Martina Calore and Nicole Bitsch and Serve Olieslagers and Oerlemans, {Martinus I. F. J.} and Huibers, {Manon M.} and {de Weger}, {Roel A.} and Reckman, {Yolan J.} and Pinto, {Yigal M.} and Lorena Zentilin and Serena Zacchigna and Mauro Giacca and {da Costa Martins}, {Paula A.} and Natalia Lopez-Andres and {De Windt}, {Leon J.}",

note = "Funding Information: E.D. is supported by VENI award 916-150-16 from the Netherlands Organization for Health Research and Development (ZonMW). V.S.-P. was funded by an individual fellowship (SFRH/BD/11799/2015) from FCT/Minist{\'e}rio da Ci{\^e}ncia. P.A.d.C.M. is supported by a MEERVOUD grant from the Netherlands Organisation for Scientific Research (NWO) and is an Established Investigator of the Dutch Heart Foundation. N.L.-A. is supported by Miguel Servet contract CP13/00221 from the “Instituto de Salud Carlos III-FEDER.” L.J.D.W. acknowledges support from the Netherlands CardioVascular Research Initiative: the Dutch Heart Foundation, the Dutch Federation of University Medical Centers, ZonMw, and the Royal Netherlands Academy of Sciences. L.J.D.W. was further supported by grant 311549 from the European Research Council (ERC) and VICI award 918-156-47 from NWO. Funding Information: E.D. is supported by VENI award 916-150-16 from the Netherlands Organization for Health Research and Development (ZonMW). V.S.-P. was funded by an individual fellowship ( SFRH/BD/11799/2015 ) from FCT/Minist{\'e}rio da Ci{\^e}ncia . P.A.d.C.M. is supported by a MEERVOUD grant from the Netherlands Organisation for Scientific Research (NWO) and is an Established Investigator of the Dutch Heart Foundation . N.L.-A. is supported by Miguel Servet contract CP13/00221 from the “Instituto de Salud Carlos III-FEDER.” L.J.D.W. acknowledges support from the Netherlands CardioVascular Research Initiative: the Dutch Heart Foundation , the Dutch Federation of University Medical Centers , ZonMw , and the Royal Netherlands Academy of Sciences . L.J.D.W. was further supported by grant 311549 from the European Research Council (ERC) and VICI award 918-156-47 from NWO . Publisher Copyright: {\textcopyright} 2018 The Author(s)",

year = "2019",

month = mar,

day = "6",

doi = "10.1016/j.ymthe.2018.11.011",

language = "English",

volume = "27",

pages = "584--599",

journal = "Molecular Therapy",

issn = "1525-0016",

publisher = "Cell Press",

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Raso, A, Dirkx, E, Philippen, LE, Fernandez-Celis, A, De Majo, F, Sampaio-Pinto, V, Sansonetti, M, Juni, R, el Azzouzi, H, Calore, M, Bitsch, N, Olieslagers, S, Oerlemans, MIFJ, Huibers, MM, de Weger, RA, Reckman, YJ, Pinto, YM, Zentilin, L, Zacchigna, S, Giacca, M, da Costa Martins, PA, Lopez-Andres, N & De Windt, LJ 2019, 'Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure', Molecular Therapy, vol. 27, no. 3, pp. 584-599. https://doi.org/10.1016/j.ymthe.2018.11.011

TY - JOUR

T1 - Therapeutic Delivery of miR-148a Suppresses Ventricular Dilation in Heart Failure

AU - Raso, Andrea

AU - Dirkx, Ellen

AU - Philippen, Leonne E.

AU - Fernandez-Celis, Amaya

AU - De Majo, Federica

AU - Sampaio-Pinto, Vasco

AU - Sansonetti, Marida

AU - Juni, Rio

AU - el Azzouzi, Hamid

AU - Calore, Martina

AU - Bitsch, Nicole

AU - Olieslagers, Serve

AU - Oerlemans, Martinus I. F. J.

AU - Huibers, Manon M.

AU - de Weger, Roel A.

AU - Reckman, Yolan J.

AU - Pinto, Yigal M.

AU - Zentilin, Lorena

AU - Zacchigna, Serena

AU - Giacca, Mauro

AU - da Costa Martins, Paula A.

AU - Lopez-Andres, Natalia

AU - De Windt, Leon J.

N1 - Funding Information: E.D. is supported by VENI award 916-150-16 from the Netherlands Organization for Health Research and Development (ZonMW). V.S.-P. was funded by an individual fellowship (SFRH/BD/11799/2015) from FCT/Ministério da Ciência. P.A.d.C.M. is supported by a MEERVOUD grant from the Netherlands Organisation for Scientific Research (NWO) and is an Established Investigator of the Dutch Heart Foundation. N.L.-A. is supported by Miguel Servet contract CP13/00221 from the “Instituto de Salud Carlos III-FEDER.” L.J.D.W. acknowledges support from the Netherlands CardioVascular Research Initiative: the Dutch Heart Foundation, the Dutch Federation of University Medical Centers, ZonMw, and the Royal Netherlands Academy of Sciences. L.J.D.W. was further supported by grant 311549 from the European Research Council (ERC) and VICI award 918-156-47 from NWO. Funding Information: E.D. is supported by VENI award 916-150-16 from the Netherlands Organization for Health Research and Development (ZonMW). V.S.-P. was funded by an individual fellowship ( SFRH/BD/11799/2015 ) from FCT/Ministério da Ciência . P.A.d.C.M. is supported by a MEERVOUD grant from the Netherlands Organisation for Scientific Research (NWO) and is an Established Investigator of the Dutch Heart Foundation . N.L.-A. is supported by Miguel Servet contract CP13/00221 from the “Instituto de Salud Carlos III-FEDER.” L.J.D.W. acknowledges support from the Netherlands CardioVascular Research Initiative: the Dutch Heart Foundation , the Dutch Federation of University Medical Centers , ZonMw , and the Royal Netherlands Academy of Sciences . L.J.D.W. was further supported by grant 311549 from the European Research Council (ERC) and VICI award 918-156-47 from NWO . Publisher Copyright: © 2018 The Author(s)

PY - 2019/3/6

Y1 - 2019/3/6

N2 - Heart failure is preceded by ventricular remodeling, changes in left ventricular mass, and myocardial volume after alterations in loading conditions. Concentric hypertrophy arises after pressure overload, involves wall thickening, and forms a substrate for diastolic dysfunction. Eccentric hypertrophy develops in volume overload conditions and leads wall thinning, chamber dilation, and reduced ejection fraction. The molecular events underlying these distinct forms of cardiac remodeling are poorly understood. Here, we demonstrate that miR-148a expression changes dynamically in distinct subtypes of heart failure: while it is elevated in concentric hypertrophy, it decreased indilated cardiomyopathy. In line, antagomir-mediated silencing of miR-148a caused wall thinning, chamber dilation, increased left ventricle volume, and reduced ejection fraction. Additionally, adeno-associated viral delivery of miR-148a protected themouse heart from pressure-overload-induced systolic dysfunction by preventing the transition of concentric hypertrophic remodeling toward dilation. Mechanistically, miR-148a targets the cytokine co-receptor glycoprotein 130 (gp130) and connects cardiomyocyte responsiveness to extracellular cytokines by modulating the Stat3 signaling.These findings show the ability of miR-148a to prevent the transition of pressure-overload induced concentric hypertrophic remodeling toward eccentric hypertrophy and dilated cardiomyopathy and provide evidence for the existence of separate molecular programs inducing distinct forms of myocardial remodeling.

AB - Heart failure is preceded by ventricular remodeling, changes in left ventricular mass, and myocardial volume after alterations in loading conditions. Concentric hypertrophy arises after pressure overload, involves wall thickening, and forms a substrate for diastolic dysfunction. Eccentric hypertrophy develops in volume overload conditions and leads wall thinning, chamber dilation, and reduced ejection fraction. The molecular events underlying these distinct forms of cardiac remodeling are poorly understood. Here, we demonstrate that miR-148a expression changes dynamically in distinct subtypes of heart failure: while it is elevated in concentric hypertrophy, it decreased indilated cardiomyopathy. In line, antagomir-mediated silencing of miR-148a caused wall thinning, chamber dilation, increased left ventricle volume, and reduced ejection fraction. Additionally, adeno-associated viral delivery of miR-148a protected themouse heart from pressure-overload-induced systolic dysfunction by preventing the transition of concentric hypertrophic remodeling toward dilation. Mechanistically, miR-148a targets the cytokine co-receptor glycoprotein 130 (gp130) and connects cardiomyocyte responsiveness to extracellular cytokines by modulating the Stat3 signaling.These findings show the ability of miR-148a to prevent the transition of pressure-overload induced concentric hypertrophic remodeling toward eccentric hypertrophy and dilated cardiomyopathy and provide evidence for the existence of separate molecular programs inducing distinct forms of myocardial remodeling.

KW - BRAIN NATRIURETIC PEPTIDE

KW - CARDIAC-HYPERTROPHY

KW - EXPRESSION

KW - GENE

KW - GP130

KW - IN-VIVO

KW - INTERLEUKIN-6 FAMILY

KW - MYOCYTES

KW - PLASMA CARDIOTROPHIN-1

KW - SURVIVAL

U2 - 10.1016/j.ymthe.2018.11.011

DO - 10.1016/j.ymthe.2018.11.011

M3 - Article

C2 - 30559069

SN - 1525-0016

VL - 27

SP - 584

EP - 599

JO - Molecular Therapy

JF - Molecular Therapy

IS - 3

ER -