MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis.

M.F. Corsten; A. Papageorgiou; W. Verhesen; P. Carai; M. Lindow; S. Obad; G. Summer; S.L.M. Coort; M. Hazebroek; R. van Leeuwen; M.J.J. Gijbels; E. Wijnands; E. A. Biessen; M.P.J. de Winther; F.R.M. Stassen; P. Carmeliet; S. Kauppinen; B. Schroen; S. Heymans

doi:10.1161/CIRCRESAHA.112.267443

MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis.

M.F. Corsten, A. Papageorgiou, W. Verhesen, P. Carai, M. Lindow, S. Obad, G. Summer, S.L.M. Coort, M. Hazebroek, R. van Leeuwen, M.J.J. Gijbels, E. Wijnands, E. A. Biessen, M.P.J. de Winther, F.R.M. Stassen, P. Carmeliet, S. Kauppinen, B. Schroen, S. Heymans^*

^*Corresponding author for this work

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

Abstract

Rationale: Viral myocarditis results from an adverse immune response to cardiotropic viruses, which causes irreversible myocyte destruction and heart failure in previously healthy people. The involvement of microRNAs and their usefulness as therapeutic targets in this process are unknown.

Objective: To identify microRNAs involved in viral myocarditis pathogenesis and susceptibility.

Methods and Results: Cardiac microRNAs were profiled in both human myocarditis and in Coxsackievirus B3-injected mice, comparing myocarditis-susceptible with nonsusceptible mouse strains longitudinally. MicroRNA responses diverged depending on the susceptibility to myocarditis after viral infection in mice. MicroRNA-155, -146b, and -21 were consistently and strongly upregulated during acute myocarditis in both humans and susceptible mice. We found that microRNA-155 expression during myocarditis was localized primarily in infiltrating macrophages and T lymphocytes. Inhibition of microRNA-155 by a systemically delivered LNA-anti-miR attenuated cardiac infiltration by monocyte-macrophages, decreased T lymphocyte activation, and reduced myocardial damage during acute myocarditis in mice. These changes were accompanied by the derepression of the direct microRNA-155 target PU.1 in cardiac inflammatory cells. Beyond the acute phase, microRNA-155 inhibition reduced mortality and improved cardiac function during 7 weeks of follow-up.

Conclusions: Our data show that cardiac microRNA dysregulation is a characteristic of both human and mouse viral myocarditis. The inflammatory microRNA-155 is upregulated during acute myocarditis, contributes to the adverse inflammatory response to viral infection of the heart, and is a potential therapeutic target for viral myocarditis. (Circ Res. 2012; 111:415-425.)

Original language	English
Pages (from-to)	415-425
Journal	Circulation Research
Volume	111
Issue number	4
DOIs	https://doi.org/10.1161/CIRCRESAHA.112.267443
Publication status	Published - 3 Aug 2012

Keywords

myocarditis
heart failure
microRNA
microRNA-155 '
viruses
inflammation
therapy
anti-miR
DENDRITIC CELLS
HEART-FAILURE
EXPRESSION
REGULATOR
BIOLOGY
ROLES
MICE
DYSREGULATION
PATHOGENESIS
MACROPHAGES

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10.1161/CIRCRESAHA.112.267443

Cite this

Corsten, M. F., Papageorgiou, A., Verhesen, W., Carai, P., Lindow, M., Obad, S., Summer, G., Coort, S. L. M., Hazebroek, M., van Leeuwen, R., Gijbels, M. J. J., Wijnands, E., Biessen, E. A., de Winther, M. P. J., Stassen, F. R. M., Carmeliet, P., Kauppinen, S., Schroen, B., & Heymans, S. (2012). MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis. Circulation Research, 111(4), 415-425. https://doi.org/10.1161/CIRCRESAHA.112.267443

@article{4a27cb69ae914752bc9dab41bde1b113,

title = "MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis.",

abstract = "Rationale: Viral myocarditis results from an adverse immune response to cardiotropic viruses, which causes irreversible myocyte destruction and heart failure in previously healthy people. The involvement of microRNAs and their usefulness as therapeutic targets in this process are unknown.Objective: To identify microRNAs involved in viral myocarditis pathogenesis and susceptibility.Methods and Results: Cardiac microRNAs were profiled in both human myocarditis and in Coxsackievirus B3-injected mice, comparing myocarditis-susceptible with nonsusceptible mouse strains longitudinally. MicroRNA responses diverged depending on the susceptibility to myocarditis after viral infection in mice. MicroRNA-155, -146b, and -21 were consistently and strongly upregulated during acute myocarditis in both humans and susceptible mice. We found that microRNA-155 expression during myocarditis was localized primarily in infiltrating macrophages and T lymphocytes. Inhibition of microRNA-155 by a systemically delivered LNA-anti-miR attenuated cardiac infiltration by monocyte-macrophages, decreased T lymphocyte activation, and reduced myocardial damage during acute myocarditis in mice. These changes were accompanied by the derepression of the direct microRNA-155 target PU.1 in cardiac inflammatory cells. Beyond the acute phase, microRNA-155 inhibition reduced mortality and improved cardiac function during 7 weeks of follow-up.Conclusions: Our data show that cardiac microRNA dysregulation is a characteristic of both human and mouse viral myocarditis. The inflammatory microRNA-155 is upregulated during acute myocarditis, contributes to the adverse inflammatory response to viral infection of the heart, and is a potential therapeutic target for viral myocarditis. (Circ Res. 2012; 111:415-425.)",

keywords = "myocarditis, heart failure, microRNA, microRNA-155 ', viruses, inflammation, therapy, anti-miR, DENDRITIC CELLS, HEART-FAILURE, EXPRESSION, REGULATOR, BIOLOGY, ROLES, MICE, DYSREGULATION, PATHOGENESIS, MACROPHAGES",

author = "M.F. Corsten and A. Papageorgiou and W. Verhesen and P. Carai and M. Lindow and S. Obad and G. Summer and S.L.M. Coort and M. Hazebroek and {van Leeuwen}, R. and M.J.J. Gijbels and E. Wijnands and Biessen, {E. A.} and {de Winther}, M.P.J. and F.R.M. Stassen and P. Carmeliet and S. Kauppinen and B. Schroen and S. Heymans",

year = "2012",

month = aug,

day = "3",

doi = "10.1161/CIRCRESAHA.112.267443",

language = "English",

volume = "111",

pages = "415--425",

journal = "Circulation Research",

issn = "0009-7330",

publisher = "LIPPINCOTT WILLIAMS & WILKINS",

number = "4",

}

Corsten, MF, Papageorgiou, A, Verhesen, W, Carai, P, Lindow, M, Obad, S, Summer, G, Coort, SLM, Hazebroek, M, van Leeuwen, R, Gijbels, MJJ, Wijnands, E, Biessen, EA, de Winther, MPJ, Stassen, FRM, Carmeliet, P, Kauppinen, S, Schroen, B & Heymans, S 2012, 'MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis.', Circulation Research, vol. 111, no. 4, pp. 415-425. https://doi.org/10.1161/CIRCRESAHA.112.267443

TY - JOUR

T1 - MicroRNA profiling identifies microRNA-155 as an adverse mediator of cardiac injury and dysfunction during acute viral myocarditis.

AU - Corsten, M.F.

AU - Papageorgiou, A.

AU - Verhesen, W.

AU - Carai, P.

AU - Lindow, M.

AU - Obad, S.

AU - Summer, G.

AU - Coort, S.L.M.

AU - Hazebroek, M.

AU - van Leeuwen, R.

AU - Gijbels, M.J.J.

AU - Wijnands, E.

AU - Biessen, E. A.

AU - de Winther, M.P.J.

AU - Stassen, F.R.M.

AU - Carmeliet, P.

AU - Kauppinen, S.

AU - Schroen, B.

AU - Heymans, S.

PY - 2012/8/3

Y1 - 2012/8/3

N2 - Rationale: Viral myocarditis results from an adverse immune response to cardiotropic viruses, which causes irreversible myocyte destruction and heart failure in previously healthy people. The involvement of microRNAs and their usefulness as therapeutic targets in this process are unknown.Objective: To identify microRNAs involved in viral myocarditis pathogenesis and susceptibility.Methods and Results: Cardiac microRNAs were profiled in both human myocarditis and in Coxsackievirus B3-injected mice, comparing myocarditis-susceptible with nonsusceptible mouse strains longitudinally. MicroRNA responses diverged depending on the susceptibility to myocarditis after viral infection in mice. MicroRNA-155, -146b, and -21 were consistently and strongly upregulated during acute myocarditis in both humans and susceptible mice. We found that microRNA-155 expression during myocarditis was localized primarily in infiltrating macrophages and T lymphocytes. Inhibition of microRNA-155 by a systemically delivered LNA-anti-miR attenuated cardiac infiltration by monocyte-macrophages, decreased T lymphocyte activation, and reduced myocardial damage during acute myocarditis in mice. These changes were accompanied by the derepression of the direct microRNA-155 target PU.1 in cardiac inflammatory cells. Beyond the acute phase, microRNA-155 inhibition reduced mortality and improved cardiac function during 7 weeks of follow-up.Conclusions: Our data show that cardiac microRNA dysregulation is a characteristic of both human and mouse viral myocarditis. The inflammatory microRNA-155 is upregulated during acute myocarditis, contributes to the adverse inflammatory response to viral infection of the heart, and is a potential therapeutic target for viral myocarditis. (Circ Res. 2012; 111:415-425.)

AB - Rationale: Viral myocarditis results from an adverse immune response to cardiotropic viruses, which causes irreversible myocyte destruction and heart failure in previously healthy people. The involvement of microRNAs and their usefulness as therapeutic targets in this process are unknown.Objective: To identify microRNAs involved in viral myocarditis pathogenesis and susceptibility.Methods and Results: Cardiac microRNAs were profiled in both human myocarditis and in Coxsackievirus B3-injected mice, comparing myocarditis-susceptible with nonsusceptible mouse strains longitudinally. MicroRNA responses diverged depending on the susceptibility to myocarditis after viral infection in mice. MicroRNA-155, -146b, and -21 were consistently and strongly upregulated during acute myocarditis in both humans and susceptible mice. We found that microRNA-155 expression during myocarditis was localized primarily in infiltrating macrophages and T lymphocytes. Inhibition of microRNA-155 by a systemically delivered LNA-anti-miR attenuated cardiac infiltration by monocyte-macrophages, decreased T lymphocyte activation, and reduced myocardial damage during acute myocarditis in mice. These changes were accompanied by the derepression of the direct microRNA-155 target PU.1 in cardiac inflammatory cells. Beyond the acute phase, microRNA-155 inhibition reduced mortality and improved cardiac function during 7 weeks of follow-up.Conclusions: Our data show that cardiac microRNA dysregulation is a characteristic of both human and mouse viral myocarditis. The inflammatory microRNA-155 is upregulated during acute myocarditis, contributes to the adverse inflammatory response to viral infection of the heart, and is a potential therapeutic target for viral myocarditis. (Circ Res. 2012; 111:415-425.)

KW - myocarditis

KW - heart failure

KW - microRNA

KW - microRNA-155 '

KW - viruses

KW - inflammation

KW - therapy

KW - anti-miR

KW - DENDRITIC CELLS

KW - HEART-FAILURE

KW - EXPRESSION

KW - REGULATOR

KW - BIOLOGY

KW - ROLES

KW - MICE

KW - DYSREGULATION

KW - PATHOGENESIS

KW - MACROPHAGES

U2 - 10.1161/CIRCRESAHA.112.267443

DO - 10.1161/CIRCRESAHA.112.267443

M3 - Article

C2 - 22715471

SN - 0009-7330

VL - 111

SP - 415

EP - 425

JO - Circulation Research

JF - Circulation Research

IS - 4

ER -