miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues

Giorgia Senesi; Alessandra M. Lodrini; Shafeeq Mohammed; Simone Mosole; Jesper Hjortnaes; Rogier J. A. Veltrop; Bela Kubat; Davide Ceresa; Sara Bolis; Andrea Raimondi; Tiziano Torre; Paolo Malatesta; Marie-Jose Goumans; Francesco Paneni; Giovanni G. Camici; Lucio Barile; Carolina Balbi; Giuseppe Vassalli

doi:10.1093/cvr/cvae243

miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues

Giorgia Senesi, Alessandra M. Lodrini, Shafeeq Mohammed, Simone Mosole, Jesper Hjortnaes, Rogier J. A. Veltrop, Bela Kubat, Davide Ceresa, Sara Bolis, Andrea Raimondi, Tiziano Torre, Paolo Malatesta, Marie-Jose Goumans, Francesco Paneni, Giovanni G. Camici, Lucio Barile, Carolina Balbi^*, Giuseppe Vassalli^*

^*Corresponding author for this work

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

Abstract

Aims Cardiac fibrosis in response to injury leads to myocardial stiffness and heart failure. At the cellular level, fibrosis is triggered by the conversion of cardiac fibroblasts (CF) into extracellular matrix-producing myofibroblasts. miR-24-3p regulates this process in animal models. Here, we investigated whether miR-24-3p plays similar roles in human models. Methods and results Gain- and loss-of-function experiments were performed using human induced pluripotent stem cell-derived cardiomyocytes (hCM) and primary hCF under normoxic or ischaemia-simulating conditions. hCM-derived extracellular vesicles (EVs) were added to hCF. Similar experiments were performed using three-dimensional human cardiac microtissues and ex vivo cultured human cardiac slices. hCF transfection with miR-24-3p mimic prevented TGFβ1-mediated induction of FURIN, CCND1, and SMAD4—miR-24-3p target genes participating in TGFβ1-dependent fibrogenesis—regulating hCF-to-myofibroblast conversion. hCM secreted miR-24-3p as EV cargo. hCM-derived EVs modulated hCF activation. Ischaemia-simulating conditions induced miR-24-3p depletion in hCM-EVs and microtissues. Similarly, hypoxia down-regulated miR-24-3p in cardiac slices. Analyses of clinical samples revealed decreased miR-24-3p levels in circulating EVs in patients with acute myocardial infarction (AMI), compared with healthy subjects.Post-mortem RNAScope analysis showed miR-24-3p down-regulation in myocardium from patients with AMI, compared with patients who died from non-cardiac diseases. Berberine, a plant-derived agent with miR-24-3p-stimulatory activity, increased miR-24-3p contents in hCM-EVs, down-regulated FURIN, CCND1, and SMAD4, and inhibited fibrosis in cardiac microtissues. Conclusion These findings suggest that hCM may control hCF activation through miR-24-3p secreted as EV cargo. Ischaemia impairs this mechanism, favouring fibrosis.

Original language	English
Pages (from-to)	143-156
Number of pages	14
Journal	Cardiovascular Research
Volume	121
Issue number	1
Early online date	1 Nov 2024
DOIs	https://doi.org/10.1093/cvr/cvae243
Publication status	Published - 1 Jan 2025

Keywords

Cardiac fibrosis
Myocardial infarction
Extracellular vesicles
Cardiomyocytes
microRNA
Microtissues
MYOCARDIAL-INFARCTION
BERBERINE
EXPRESSION

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Senesi, G., Lodrini, A. M., Mohammed, S., Mosole, S., Hjortnaes, J., Veltrop, R. J. A., Kubat, B., Ceresa, D., Bolis, S., Raimondi, A., Torre, T., Malatesta, P., Goumans, M.-J., Paneni, F., Camici, G. G., Barile, L., Balbi, C., & Vassalli, G. (2025). miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues. Cardiovascular Research, 121(1), 143-156. https://doi.org/10.1093/cvr/cvae243

@article{4454f1cc6b72486cab39057c68cf5a5f,

title = "miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues",

abstract = "Aims Cardiac fibrosis in response to injury leads to myocardial stiffness and heart failure. At the cellular level, fibrosis is triggered by the conversion of cardiac fibroblasts (CF) into extracellular matrix-producing myofibroblasts. miR-24-3p regulates this process in animal models. Here, we investigated whether miR-24-3p plays similar roles in human models. Methods and results Gain- and loss-of-function experiments were performed using human induced pluripotent stem cell-derived cardiomyocytes (hCM) and primary hCF under normoxic or ischaemia-simulating conditions. hCM-derived extracellular vesicles (EVs) were added to hCF. Similar experiments were performed using three-dimensional human cardiac microtissues and ex vivo cultured human cardiac slices. hCF transfection with miR-24-3p mimic prevented TGFβ1-mediated induction of FURIN, CCND1, and SMAD4—miR-24-3p target genes participating in TGFβ1-dependent fibrogenesis—regulating hCF-to-myofibroblast conversion. hCM secreted miR-24-3p as EV cargo. hCM-derived EVs modulated hCF activation. Ischaemia-simulating conditions induced miR-24-3p depletion in hCM-EVs and microtissues. Similarly, hypoxia down-regulated miR-24-3p in cardiac slices. Analyses of clinical samples revealed decreased miR-24-3p levels in circulating EVs in patients with acute myocardial infarction (AMI), compared with healthy subjects.Post-mortem RNAScope analysis showed miR-24-3p down-regulation in myocardium from patients with AMI, compared with patients who died from non-cardiac diseases. Berberine, a plant-derived agent with miR-24-3p-stimulatory activity, increased miR-24-3p contents in hCM-EVs, down-regulated FURIN, CCND1, and SMAD4, and inhibited fibrosis in cardiac microtissues. Conclusion These findings suggest that hCM may control hCF activation through miR-24-3p secreted as EV cargo. Ischaemia impairs this mechanism, favouring fibrosis.",

keywords = "Cardiac fibrosis, Myocardial infarction, Extracellular vesicles, Cardiomyocytes, microRNA, Microtissues, MYOCARDIAL-INFARCTION, BERBERINE, EXPRESSION",

author = "Giorgia Senesi and Lodrini, {Alessandra M.} and Shafeeq Mohammed and Simone Mosole and Jesper Hjortnaes and Veltrop, {Rogier J. A.} and Bela Kubat and Davide Ceresa and Sara Bolis and Andrea Raimondi and Tiziano Torre and Paolo Malatesta and Marie-Jose Goumans and Francesco Paneni and Camici, {Giovanni G.} and Lucio Barile and Carolina Balbi and Giuseppe Vassalli",

year = "2025",

month = jan,

day = "1",

doi = "10.1093/cvr/cvae243",

language = "English",

volume = "121",

pages = "143--156",

journal = "Cardiovascular Research",

issn = "0008-6363",

publisher = "Oxford University Press",

number = "1",

}

Senesi, G, Lodrini, AM, Mohammed, S, Mosole, S, Hjortnaes, J, Veltrop, RJA , Kubat, B, Ceresa, D, Bolis, S, Raimondi, A, Torre, T, Malatesta, P, Goumans, M-J, Paneni, F, Camici, GG, Barile, L, Balbi, C & Vassalli, G 2025, 'miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues', Cardiovascular Research, vol. 121, no. 1, pp. 143-156. https://doi.org/10.1093/cvr/cvae243

TY - JOUR

T1 - miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues

AU - Senesi, Giorgia

AU - Lodrini, Alessandra M.

AU - Mohammed, Shafeeq

AU - Mosole, Simone

AU - Hjortnaes, Jesper

AU - Veltrop, Rogier J. A.

AU - Kubat, Bela

AU - Ceresa, Davide

AU - Bolis, Sara

AU - Raimondi, Andrea

AU - Torre, Tiziano

AU - Malatesta, Paolo

AU - Goumans, Marie-Jose

AU - Paneni, Francesco

AU - Camici, Giovanni G.

AU - Barile, Lucio

AU - Balbi, Carolina

AU - Vassalli, Giuseppe

PY - 2025/1/1

Y1 - 2025/1/1

N2 - Aims Cardiac fibrosis in response to injury leads to myocardial stiffness and heart failure. At the cellular level, fibrosis is triggered by the conversion of cardiac fibroblasts (CF) into extracellular matrix-producing myofibroblasts. miR-24-3p regulates this process in animal models. Here, we investigated whether miR-24-3p plays similar roles in human models. Methods and results Gain- and loss-of-function experiments were performed using human induced pluripotent stem cell-derived cardiomyocytes (hCM) and primary hCF under normoxic or ischaemia-simulating conditions. hCM-derived extracellular vesicles (EVs) were added to hCF. Similar experiments were performed using three-dimensional human cardiac microtissues and ex vivo cultured human cardiac slices. hCF transfection with miR-24-3p mimic prevented TGFβ1-mediated induction of FURIN, CCND1, and SMAD4—miR-24-3p target genes participating in TGFβ1-dependent fibrogenesis—regulating hCF-to-myofibroblast conversion. hCM secreted miR-24-3p as EV cargo. hCM-derived EVs modulated hCF activation. Ischaemia-simulating conditions induced miR-24-3p depletion in hCM-EVs and microtissues. Similarly, hypoxia down-regulated miR-24-3p in cardiac slices. Analyses of clinical samples revealed decreased miR-24-3p levels in circulating EVs in patients with acute myocardial infarction (AMI), compared with healthy subjects.Post-mortem RNAScope analysis showed miR-24-3p down-regulation in myocardium from patients with AMI, compared with patients who died from non-cardiac diseases. Berberine, a plant-derived agent with miR-24-3p-stimulatory activity, increased miR-24-3p contents in hCM-EVs, down-regulated FURIN, CCND1, and SMAD4, and inhibited fibrosis in cardiac microtissues. Conclusion These findings suggest that hCM may control hCF activation through miR-24-3p secreted as EV cargo. Ischaemia impairs this mechanism, favouring fibrosis.

AB - Aims Cardiac fibrosis in response to injury leads to myocardial stiffness and heart failure. At the cellular level, fibrosis is triggered by the conversion of cardiac fibroblasts (CF) into extracellular matrix-producing myofibroblasts. miR-24-3p regulates this process in animal models. Here, we investigated whether miR-24-3p plays similar roles in human models. Methods and results Gain- and loss-of-function experiments were performed using human induced pluripotent stem cell-derived cardiomyocytes (hCM) and primary hCF under normoxic or ischaemia-simulating conditions. hCM-derived extracellular vesicles (EVs) were added to hCF. Similar experiments were performed using three-dimensional human cardiac microtissues and ex vivo cultured human cardiac slices. hCF transfection with miR-24-3p mimic prevented TGFβ1-mediated induction of FURIN, CCND1, and SMAD4—miR-24-3p target genes participating in TGFβ1-dependent fibrogenesis—regulating hCF-to-myofibroblast conversion. hCM secreted miR-24-3p as EV cargo. hCM-derived EVs modulated hCF activation. Ischaemia-simulating conditions induced miR-24-3p depletion in hCM-EVs and microtissues. Similarly, hypoxia down-regulated miR-24-3p in cardiac slices. Analyses of clinical samples revealed decreased miR-24-3p levels in circulating EVs in patients with acute myocardial infarction (AMI), compared with healthy subjects.Post-mortem RNAScope analysis showed miR-24-3p down-regulation in myocardium from patients with AMI, compared with patients who died from non-cardiac diseases. Berberine, a plant-derived agent with miR-24-3p-stimulatory activity, increased miR-24-3p contents in hCM-EVs, down-regulated FURIN, CCND1, and SMAD4, and inhibited fibrosis in cardiac microtissues. Conclusion These findings suggest that hCM may control hCF activation through miR-24-3p secreted as EV cargo. Ischaemia impairs this mechanism, favouring fibrosis.

KW - Cardiac fibrosis

KW - Myocardial infarction

KW - Extracellular vesicles

KW - Cardiomyocytes

KW - microRNA

KW - Microtissues

KW - MYOCARDIAL-INFARCTION

KW - BERBERINE

KW - EXPRESSION

U2 - 10.1093/cvr/cvae243

DO - 10.1093/cvr/cvae243

M3 - Article

SN - 0008-6363

VL - 121

SP - 143

EP - 156

JO - Cardiovascular Research

JF - Cardiovascular Research

IS - 1

ER -

miR-24-3p secreted as extracellular vesicle cargo by cardiomyocytes inhibits fibrosis in human cardiac microtissues

Abstract

Keywords

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