Transverse aortic banding produced identical load-induced hypertrophy in 129SvEv alphaMHC403/+ and wild-type mice (LVAW 1.28 vs 1.29 mm; P=NS), indicating independent cardiac remodeling pathways.
Does increased ventricular load exacerbate cardiac hypertrophy in a mouse model of hypertrophic cardiomyopathy?
Increased ventricular load produces a uniform hypertrophic response in both wild-type and HCM mice, suggesting that coexistent hypertension and HCM do not profoundly exacerbate cardiac hypertrophy.
Tasa de eventos absoluta: 1.28% vs 1.29%
valor p: p=NS
BACKGROUND: Whether ventricular remodeling from hypertrophic cardiomyopathy (HCM), systemic hypertension, or other pathologies arises through a common signaling pathway or through independent molecular mechanisms is unknown. To study this, we assessed cardiac hypertrophy in a mouse model of HCM subjected to increased left ventricular (LV) load. METHODS AND RESULTS: Transverse aortic banding of mice with or without an Arg403Gln cardiac myosin heavy chain mutation (alphaMHC403/+) produced similarly elevated LV pressures (120+/-30 versus 112+/-14 mm Hg; P=NS). No mice developed heart failure, and mortality (26% alphaMHC403/+, 35% wild-type) was comparable. Load-induced hypertrophy was identical in banded 129SvEv alphaMHC403/+ mice (LV anterior wall LVAW=1.28+/-0.11) and 129SvEv wild-type mice (LVAW=1.29+/-0.11 mm; P=NS). Genetically outbred Black Swiss (BS) alphaMHC403/+ mice showed only mildly exaggerated hypertrophy in response to aortic banding (BS alphaMHC403/+ LVAW=1.30+/-0.13 mm; BS wild-type LVAW=1.17+/-0.15 mm; P=0.03), suggesting some effect from a BS genetic locus that modifies hypertrophy induced by the cardiac MHC Arg403Gln mutation. Histopathology and molecular markers of hypertrophy were comparable in all banded 129SvEv or BS mice. Banded alphaMHC403/+ mice had potential for greater hypertrophy, because cyclosporin A treatment markedly augmented hypertrophy. CONCLUSIONS: The uniform hypertrophic response to increased ventricular load in wild-type and alphaMHC403/+ mice indicates independent cardiac remodeling pathways and predicts that coexistent hypertension and HCM should not profoundly exacerbate cardiac hypertrophy. In contrast, sarcomere mutation and cyclosporin A-mediated calcineurin inhibition stimulate a shared hypertrophic signaling pathway. Defining distinct signaling pathways that trigger myocyte growth should help to tailor therapies for cardiac hypertrophy.
Schmitt et al. (Tue,) conducted a other in Hypertrophic cardiomyopathy and pressure overload. Transverse aortic banding vs. Wild-type mice was evaluated on Left ventricular anterior wall (LVAW) thickness in 129SvEv mice (p=NS). Transverse aortic banding produced identical load-induced hypertrophy in 129SvEv alphaMHC403/+ and wild-type mice (LVAW 1.28 vs 1.29 mm; P=NS), indicating independent cardiac remodeling pathways.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: