Abstract
Introduction: Expression of miR-206 is upregulated by YAP, a key transcription co-factor controlled by the Hippo signaling pathway, and mediates YAP-induced hypertrophy and survival of cardiomyocytes. Although miR-206 is known to promote hypertrophy of skeletal muscle, the role of miR-206 in the heart under clinically relevant conditions in vivo remains unknown. We investigated the role of miR-206 in mediating cardiac hypertrophy in response to pressure overload (PO). Results: The level of miR-206 in the mouse heart, as evaluated by qRT-PCR, was upregulated 2.9 fold (p<0.05) 7 days after transverse aortic constriction (TAC) compared to sham operation. In order to evaluate the involvement of miR-206 in cardiac hypertrophy, wild-type C57B/6J mice were administered LNA inhibitor designed to selectively inhibit miR-206, or control scrambled LNA, by tail vein injection. Specificity of the LNA inhibitor was confirmed by qRT-PCR analysis of miRNA expression 48 hours after treatment. Notably, the LNA inhibitor did not affect the level of miR-1, which has a sequence similarity with miR-206. After 48 hours, mice from both treatment groups were subjected to sham operation or TAC. After 7 days of TAC, echocardiography was performed and mice were sacrificed. Upregulation of myocardial miR-206 expression levels after 7 days TAC observed in LNA control-treated mice was completely abolished in LNA-anti-206 -treated mice. A significant increase in left ventricular weight/tibial length (mg/mm) in LNA control-treated mice following TAC was observed (sham vs TAC: 3.7, 4.8, p<0.05); however, no increase was observed in LNA-anti-206 -treated mice (3.8, 3.8). We also noted significant differences in chamber wall thickness (mm) between the LNA-control and LNA-anti-206-treated TAC groups (diastolic posterior wall 0.91, 0.61, p<0.05). Additionally, cardiomyocyte cross sectional area (1.23, 0.9, p<0.05) and ANF expression (2.5, 1.3, P<0.05) were significantly increased in the LNA control-treated TAC group, and these responses were attenuated in the LNA-anti-206-treated mice. Conclusions: These data demonstrate that inhibition of miR-206 impairs PO-induced hypertrophy and indicates that miR-206 is an important endogenous mediator of heart growth in response to PO.
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