ABSTRACT
AIM:To investigate whether KCNE 2 participates in the development of pathological hypertrophy .METHODS:Bidirectional ma-nipulations of KCNE2 expression were performed by adenoviral overexpression of KCNE 2 or knockdown of KCNE2 with RNA interfer-ence in PE-induced neonatal rat ventricular myocytes .Then overexpression of KCNE 2 in mouse model of left ventricular hypertrophy in-duced by transverse aortic constriction (TAC) by ultrasound microbubble-mediated gene transfer were used to detect the therapeutic function of KCNE2 in the development of hypertrophy .RESULTS:KCNE2 expression was significantly decreased in PE-induced hy-pertrophic cardiomyocytes and in hypertrophic hearts produced by TAC .Knockdown of KCNE2 in cardiomyocytes reproduced hypertro-phy, whereas overexpression of KCNE2 attenuated PE-induced cardiomyocyte hypertrophy .Knockdown of KCNE2 increased calcineurin activity and nuclear NFAT protein level , and pretreatment with nifedipine or FK 506 attenuated decreased KCNE 2-induced cardiomyo-cyte hypertrophy .Overexpression of KCNE 2 in heart by ultrasound microbubble-mediated gene transfer suppressed the development of hypertrophy and activation of calcineurin-NFAT and MAPK pathways in TAC mice .CONCLUSION:These findings demonstrate that cardiac KCNE2 expression is decreased and contributes to the development of hypertrophy via activation of calcineurin -NFAT and MAPK pathways .
ABSTRACT
AIM:To investigate the regulation mechanism for insufficient KChIP 2 expression induces Ito,f downregulation and arrhythmogene-sis in cardiac hypertrophy .METHODS:Bidirectional manipulations of MG 53 expression were performed by adenoviral overexpression of MG53 or knockdown of MG53 with RNA interference in neonatal rat ventricular myocytes with or without PE stimulation .Ito,f was re-corded with patch clamp in whole-cell mode 48 h after adenoviral transfection .Then the WT or MG53 knockout ( MG53 -/-) mouse model of left ventricular hypertrophy induced by transverse aortic constriction ( TAC) were used to detect the susceptibility to ventricu-lar arrhythmia.RESULTS: Here, we show muscle-specific MG53 regulates KChIP2 expression and Ito,f densities, where they are downregulated in hearts from MG53 knockout mice and MG53 knockdown rat cardiomyocytes , but upregulated in MG53 overexpressed cells.MG53 expression is decreased in phenylephrine ( PE)-induced cardiomyocyte hypertrophy and restoration of MG 53 rescues PE-induced downregulation of KChIP2 and Ito,f.Furthermore, MG53 is decreased in a mouse model of hypertrophy induced by transverse aortic constriction and ablation of MG 53 increases the susceptibility to ventricular arrhythmia by exaggerating Ito,f remodeling.CON-CLUSION:These findings establish MG53 as a novel regulator of Ito,f and its central role in arrhythmogenesis in hypertrophy .
ABSTRACT
AIM: To study I_ to channel function in severe burn and its contribution to cardiac dysfunction induced by severe burn. METHODS: CHO-K1 cells were transfected with human Kv4.3, the major subunit of human I_ to channel. The expressed Kv4.3 channels were recorded by whole-cell patch clamp and the effects of rat burn serum on Kv4.3 current densities and kinetics were observed. RESULTS: Kv4.3 channels expressed in CHO-K1 cells were endowed with the characterization of fast activation and inactivation, which was quite similar to that of native I_ to channels in cardiomyocytes. Rat's burn serum at the concentration of 2% decreased the current density significantly. At +40 mV, the current density in control group was (67.6?15.1) pA/pF, in contrast to (32.3?9.7)pA/pF in burn serum-treated group (P