Evidence for Progressive Shifts Towards α‐Myosin Isoform with Paradoxical Increases in Cardiac Hemodynamic Loads in Post‐Natal Healthy Rats

Abstract

IntroductionThe balance of fast (α) and slow (β) cardiac myosin heavy chain (MYHC) isoforms is known to change with both aging and disease. While pathological states with increased hemodynamic loads are often accompanied by shifts toward energy‐sparing β isoforms, the underlying mechanism(s) of these changes remain poorly understood. Neonatal rats are a promising model to study such cardiac MYHC remodeling, as they show a well‐documented transition (β to α) during post‐natal development. In these experiments, MYHC‐isoform switches and in vivo cardiac structure/hemodynamic changes were evaluated during post‐natal development.MethodsCardiac echocardiographic and systemic/left ventricular (LV) hemodynamics were evaluated in Sprague‐Dawley rats (n = 61) ranging from post‐natal day (PND) 3 to adulthood. Hemodynamics were obtained before/after challenges with sodium nitroprusside (SNP, 25 μg/kg IV) and/or phenylephrine (PE, 10 μg/kg IV) to study cardiovascular responsiveness. LV’s were also collected (n = 48) for myosin isoform analysis via SDS‐PAGE MYHC separating gels.ResultsAs expected, post‐natal rats showed a progressive decline in β‐MYHC expression from PND3 (1.29 ± 0.05 α:β) to adulthood when α‐MYHC was dominant (12.78 ± 2.51 α:β). Concomitantly, postnatal rats showed progressive increases (P<0.05) in systemic/LV pressures (MAP: 46 ± 1 at <PND14 to 103 ± 2 mmHg, P<0.05), LV mass (0.16 ± 0.02g at <PND14 to 0.84 ± 017g) and diastolic dimensions (79 ± 6 at <PND14 to 288 ± 14 μL), with vastly preserved heart rates. Pressor responses to PE increased during maturation, while all age groups were sensitive to SNP‐mediated vaso‐relaxation. Ejection fraction was preserved during postnatal maturation with young pups showing lower rates of LV pressure development (dPdtmax 4052 ± 125 at <PND14 vs. 9478 ± 231 mmHg/s, P<0.05) consistent with the early expression of β‐MYHC.ConclusionsTaken together, these data provide evidence of a maturing cardiovascular system in post‐natal rats showing progressive increases in systemic/ventricular pressures and cardiac dimensions, with paradoxical shifts towards α‐MYHC isoforms. In short, in rats, the cardiac β‐MYHC isoform consistently declines over maturation despite sustained increases in systemic load.