BACKGROUND: The biochemical differences between the 2 mammalian cardiac myosin heavy chains (MHCs), alpha-MHC and beta-MHC, are well described, but the physiological consequences of basal isoform expression and isoform shifts in response to altered cardiac load are not clearly understood. Mature human ventricle contains primarily the beta-MHC isoform. However, the alpha-MHC isoform can be detected in healthy human ventricle and appears to be significantly downregulated in failing hearts. The unique biochemical properties of the alpha-MHC isoform might offer functional advantages in a failing heart that is expressing only the beta-MHC isoform. This hypothesis cannot be tested in mice or rats because both species express alpha-MHC as the predominant isoform. METHODS AND RESULTS: To test the effects of persistent alpha-MHC expression on the background of beta-MHC, we made transgenic (TG) rabbits that expressed rabbit alpha-MHC cDNA in the ventricle so that the endogenous myosin was partially replaced by the transgenically encoded species. Molecular, histological, and functional analyses showed no significant baseline effects in the TG rabbits compared with nontransgenic (NTG) littermates. To determine whether alpha-MHC expression afforded any advantages to stressed myocardium, a cohort of TG and NTG rabbits was subjected to rapid ventricular pacing. Although both the TG and NTG rabbits developed dilated cardiomyopathy, the TG rabbits had a higher shortening fraction, less septal thinning, and more normal +/-dP/dt than paced NTG rabbits. CONCLUSIONS: Transgenic expression of alpha-MHC does not have any apparent detrimental effects under basal conditions and is cardioprotective in experimental tachycardia-induced cardiomyopathy.
BACKGROUND: The biochemical differences between the 2 mammaliancardiac myosin heavy chains (MHCs), alpha-MHC and beta-MHC, are well described, but the physiological consequences of basal isoform expression and isoform shifts in response to altered cardiac load are not clearly understood. Mature human ventricle contains primarily the beta-MHC isoform. However, the alpha-MHC isoform can be detected in healthy human ventricle and appears to be significantly downregulated in failing hearts. The unique biochemical properties of the alpha-MHC isoform might offer functional advantages in a failing heart that is expressing only the beta-MHC isoform. This hypothesis cannot be tested in mice or rats because both species express alpha-MHC as the predominant isoform. METHODS AND RESULTS: To test the effects of persistent alpha-MHC expression on the background of beta-MHC, we made transgenic (TG) rabbits that expressed rabbitalpha-MHC cDNA in the ventricle so that the endogenous myosin was partially replaced by the transgenically encoded species. Molecular, histological, and functional analyses showed no significant baseline effects in the TG rabbits compared with nontransgenic (NTG) littermates. To determine whether alpha-MHC expression afforded any advantages to stressed myocardium, a cohort of TG and NTGrabbits was subjected to rapid ventricular pacing. Although both the TG and NTGrabbits developed dilated cardiomyopathy, the TG rabbits had a higher shortening fraction, less septal thinning, and more normal +/-dP/dt than paced NTGrabbits. CONCLUSIONS: Transgenic expression of alpha-MHC does not have any apparent detrimental effects under basal conditions and is cardioprotective in experimental tachycardia-induced cardiomyopathy.
Authors: J James; H Osinska; T E Hewett; T Kimball; R Klevitsky; S Witt; D G Hall; J Gulick; J Robbins Journal: Transgenic Res Date: 1999-02 Impact factor: 2.788
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Authors: John C Deacon; Marieke J Bloemink; Heresh Rezavandi; Michael A Geeves; Leslie A Leinwand Journal: Cell Mol Life Sci Date: 2012-12 Impact factor: 9.261