Journal
CELL STRESS & CHAPERONES
Volume 20, Issue 3, Pages 411-420Publisher
SPRINGER
DOI: 10.1007/s12192-014-0565-9
Keywords
MicroRNAs; Oxidative stress; Post-transcriptional modification
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Funding
- National Basic Research Program of China (973 program) [2013CB531104]
- National Science Foundation of China [81130088]
- National Natural Science Foundation of China [81100072]
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Oxidative stress plays an important role in cardiovascular diseases. Studies have shown that miR-1 plays an important role in the regulation of cardiomyocyte apoptosis, which can be the result of oxidative stress. This study was designed to determine whether increased miR-1 levels lead to alterations in the expression of proteins related to oxidative stress, which could contribute to heart dysfunction. We compared cardiac function in wild-type (WT) and miR-1 transgene (miR-1/Tg) C57BL/6 mice (n a parts per thousand yenaEuro parts per thousand 10/group). Echocardiography showed that stroke volume (SV), ejection fraction (EF), and fractional shortening (FS) were significantly decreased in miR-1/Tg mice. Concomitantly, the level of reactive oxygen species (ROS) was elevated in the cardiomyocytes from the miR-1/Tg mice, and activities of lactate dehydrogenase (LDH) and creatinine kinase (CK) in plasma were also increased in the miR-1/Tg mice. All of these changes could be reversed by LNA-anti-miR-1. In the cardiomyocytes of neonatal Wistar rats, overexpression of miR-1 exhibits higher ROS levels and lower resistance to H2O2-induced oxidative stress. We demonstrated that SOD1, Gclc, and G6PD are novel targets of miR-1 for post-transcriptional repression. MicroRNA-1 post-transcriptionally represses the expression of SOD1, Gclc, and G6PD, which is likely to contribute to the increased ROS level and the susceptibility to oxidative stress of the hearts of miR-1 transgenic mice.
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