miR-19a-3p containing exosomes improve function of ischaemic myocardium upon shock wave therapy

Gollmann‐Tepeköylü, Can; Pölzl, Leo; Graber, Michael; Hirsch, Jakob; Nägele, Felix; Lobenwein, Daniela; Hess, Michael W.; Blumer, Michael; Kirchmair, Elke; Zipperle, Johannes; Hromada, Carina; Mühleder, Severin; Hackl, Hubert; Hermann, Martin; Khamisi, Hemse Al; Förster, Martin; Lichtenauer, Michael; Mittermayr, Rainer; Paulus, Patrick; Fritsch, Helga; Bonaros, Nikolaos; Kirchmair, Rudolf; Sluijter, Joost P.G.; Davidson, Sean M.; Grimm, Michael; Holfeld, Johannes

doi:10.1093/cvr/cvz209

Cited by 82 publications

(66 citation statements)

References 37 publications

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“…Since their discovery in 1983 [53], and initially regarded as membrane debris with no biological relevance, extracellular vesicles have recently obtained interest. In fact, growing attention has focused on the theory that extracellular vesicles may serve as an exquisite form of intercellular communication [23,50]: indeed, they exert key functions via transferring to recipient cells their bioactive cargos, which are different in both quantitative and qualitative terms depending on the status of the parent cell, for instance in response to ischemic injury [54][55][56][57][58][59][60][61]. Although size is often used to classify subtypes of extracellular vesicles, there is no consensus so far on a strict cut-off.…”

Section: Discussionmentioning

confidence: 99%

Cardiosomal microRNAs Are Essential in Post-Infarction Myofibroblast Phenoconversion

Morelli

Shu

Sardu

et al. 2019

IJMS

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The inclusion of microRNAs (miRNAs) in extracellular microvesicles/exosomes (named cardiosomes when deriving from cardiomyocytes) allows their active transportation and ensures cell-cell communication. We hypothesize that cardiosomal miRNAs play a pivotal role in the activation of myofibroblasts following ischemic injury. Using a murine model of myocardial infarction (MI), we tested our hypothesis by measuring in isolated fibroblasts and cardiosomes the expression levels of a set of miRNAs, which are upregulated in cardiomyocytes post-MI and involved in myofibroblast phenoconversion. We found that miR-195 was significantly upregulated in cardiosomes and in fibroblasts isolated after MI compared with SHAM conditions. Moreover, primary isolated cardiac fibroblasts were activated both when incubated with cardiosomes isolated from ischemic cardiomyocytes and when cultured in conditioned medium of post-MI cardiomyocytes, whereas no significant effect was observed following incubation with cardiosomes or medium from sham cardiomyocytes. Taken together, our findings indicate for the first time that a cardiomyocyte-specific miRNA, transferred to fibroblasts in form of exosomal cargo, is crucial in the activation of myofibroblasts.

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Section: Discussionmentioning

confidence: 99%

Cardiosomal microRNAs Are Essential in Post-Infarction Myofibroblast Phenoconversion

Morelli

Shu

Sardu

et al. 2019

IJMS

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“…Various studies have suggested an important functional role for endothelial‐derived sEVs in the context of cardiovascular physiology and pathophysiology . Moreover, there is an increasing amount of evidence showing that the production and function of sEVs may vary in response to protective/deleterious stimuli or different physiological states . In this context, endothelial senescence is a key feature of vascular ageing and thus, it is an attractive therapeutic target for the treatment of vascular disease.…”

Section: Introductionmentioning

confidence: 99%

Increased production of functional small extracellular vesicles in senescent endothelial cells

Riquelme

Takov

Santiago‐Fernández

et al. 2020

J Cellular Molecular Medi

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Small extracellular vesicles (EVs) are novel players in vascular biology. However, a thorough understanding of their production and function remains elusive. Endothelial senescence is a key feature of vascular ageing and thus, is an attractive therapeutic target for the treatment of vascular disease. In this study, we sought to characterize the EV production of senescent endothelial cells. To achieve this, Human Umbilical Vascular Endothelial Cells (HUVECs) were replicated until they reached senescence, as determined by measurement of Senescence-Associated β-Galactosidase activ-

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“…DAMPs, including RNA, proteins, or lipids, are released upon cellular injury and can activate TLR (25). SWT causes the release of specific exosomes mediating angiogenesis and repair (26). Exosomes can activate TLRs either by activating membrane proteins or their cargo (27).…”

Section: Figure 2 Swt Reduces Spinal Cord Damage and Neuronal Degenementioning

confidence: 99%

Shock waves promote spinal cord repair via TLR3

Gollmann‐Tepeköylü¹,

Nägele²,

Graber³

et al. 2020

JCI Insight

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miR-19a-3p containing exosomes improve function of ischaemic myocardium upon shock wave therapy

Cited by 82 publications

References 37 publications

Cardiosomal microRNAs Are Essential in Post-Infarction Myofibroblast Phenoconversion

Cardiosomal microRNAs Are Essential in Post-Infarction Myofibroblast Phenoconversion

Increased production of functional small extracellular vesicles in senescent endothelial cells

Shock waves promote spinal cord repair via TLR3

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