MicroRNA‐18 and microRNA‐19 regulate CTGF and TSP‐1 expression in age‐related heart failure

Summary To understand the process of cardiac aging, it is of crucial importance to gain insight into the age‐related changes in gene expression in the senescent failing heart. Age‐related cardiac remodeling is known to be accompanied by changes in extracellular matrix (ECM) gene and protein levels....

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Bibliographic Details
Published in:Aging cell 2011-10, Vol.10 (5), p.769-779
Main Authors: van Almen, Geert C., Verhesen, Wouter, van Leeuwen, Rick E. W., van de Vrie, Mathijs, Eurlings, Casper, Schellings, Mark W. M., Swinnen, Melissa, Cleutjens, Jack P. M., van Zandvoort, Marc A. M. J., Heymans, Stephane, Schroen, Blanche
Format: Article
Language:English
Subjects:
Adult
Age
Aged
Aging - genetics
Aging - physiology
Animals
Biopsy
cardiac aging
Collagen - metabolism
connective tissue growth factor
Connective Tissue Growth Factor - genetics
Connective Tissue Growth Factor - metabolism
Extracellular Matrix - genetics
Extracellular Matrix - metabolism
Fibrosis - genetics
Fibrosis - metabolism
Gene Expression Regulation, Developmental
Heart - physiology
Heart Failure - pathology
Humans
Male
matricellular proteins
Mice
Mice, Inbred C57BL
microRNA
MicroRNAs - genetics
MicroRNAs - metabolism
Middle Aged
miR‐18
miR‐19
Multigene Family
Myocytes, Cardiac - cytology
Myocytes, Cardiac - metabolism
Original
Rats
Rats, Inbred Lew
Thrombospondin 1 - genetics
Thrombospondin 1 - metabolism
thrombospondin‐1
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Summary:Summary To understand the process of cardiac aging, it is of crucial importance to gain insight into the age‐related changes in gene expression in the senescent failing heart. Age‐related cardiac remodeling is known to be accompanied by changes in extracellular matrix (ECM) gene and protein levels. Small noncoding microRNAs regulate gene expression in cardiac development and disease and have been implicated in the aging process and in the regulation of ECM proteins. However, their role in age‐related cardiac remodeling and heart failure is unknown. In this study, we investigated the aging‐associated microRNA cluster 17–92, which targets the ECM proteins connective tissue growth factor (CTGF) and thrombospondin‐1 (TSP‐1). We employed aged mice with a failure‐resistant (C57Bl6) and failure‐prone (C57Bl6 × 129Sv) genetic background and extrapolated our findings to human age‐associated heart failure. In aging‐associated heart failure, we linked an aging‐induced increase in the ECM proteins CTGF and TSP‐1 to a decreased expression of their targeting microRNAs 18a, 19a, and 19b, all members of the miR‐17–92 cluster. Failure‐resistant mice showed an opposite expression pattern for both the ECM proteins and the microRNAs. We showed that these expression changes are specific for cardiomyocytes and are absent in cardiac fibroblasts. In cardiomyocytes, modulation of miR‐18/19 changes the levels of ECM proteins CTGF and TSP‐1 and collagens type 1 and 3. Together, our data support a role for cardiomyocyte‐derived miR‐18/19 during cardiac aging, in the fine‐tuning of cardiac ECM protein levels. During aging, decreased miR‐18/19 and increased CTGF and TSP‐1 levels identify the failure‐prone heart.
ISSN:1474-9718
1474-9726
DOI:10.1111/j.1474-9726.2011.00714.x