Irx5 is a homeodomain transcription factor that negatively regulates cardiac fast transient outward K+ currents (Ito,f) via the KV4.2 gene and is thereby a major determinant of the transmural repolarization gradient. While Ito,f is invariably reduced in heart disease and changes in Ito,f can modulate both cardiac contractility and hypertrophy, less is known about a functional role of Irx5, and its relationship with Ito,f, in the normal and diseased heart. Here I show that Irx5 plays crucial roles in the regulation of cardiac contractility and proper adaptive hypertrophy. Specifically, Irx5-deficient (Irx5-/-) hearts had reduced cardiac contractility and lacked the normal regional difference in excitation-contraction with decreased action potential duration, Ca2+ transients and myocyte shortening in sub-endocardial, but not sub-epicardial, myocytes. In addition, Irx5-/- mice showed less cardiac hypertrophy, but increased interstitial fibrosis and greater contractility impairment following pressure overload. A defect in hypertrophic responses in Irx5-/- myocardium was confirmed in cultured neonatal mouse ventricular myocytes, exposed to norepinephrine while being restored with Irx5 replacement. Interestingly, studies using mice virtually lacking Ito,f (i.e. KV4.2-deficient) showed that reduced contractility in Irx5-/- mice was completely restored by loss of KV4.2, whereas hypertrophic responses to pressure-overload in hearts remained impaired when both Irx5 and Ito,f were absent. These findings suggest that Irx5 regulates cardiac contractility in an Ito,f-dependent manner while affecting hypertrophy independent of Ito,f. On the other hand, Irx5-ablation attenuated calcineurin (Cn)-induced hypertrophy in hearts and cultured cardiomyocytes, suggesting that the effect of Irx5 on hypertrophy involves the Cn-NFAT signalling cascade. Biochemical assessments further revealed that Irx5 can positively mediate Cn-NFAT activities as well as Nfatc3 and Gata4 expression, and interacts with Nfatc3 and Gata4, suggesting the formation of a transcription complex for hypertrophic gene regulation. Taken together, these studies have identified Irx5 as a vital cardiac transcription factor, important for contractile function of the heart by regulating Ito,f, and compensatory hypertrophic response to biomechanical stress in the heart by affecting the Cn-NFAT (and Gata4) signaling pathway.
Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/33852 |
Date | 06 December 2012 |
Creators | Kim, Kyoung Han |
Contributors | Backx, Peter |
Source Sets | University of Toronto |
Language | en_ca |
Detected Language | English |
Type | Thesis |
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