Cardiac myosin phenotype remodeling following chronic spinal transection.

Spinal transection results in profound neural and functional changes of the heart. However, phenotypic alterations in cardiac myosin heavy chains (MyHC) as a result of spinal transection have not been explored. Hearts were removed from 180 day old rats who had their spinal cords transected between T6 and T9 (ST; n = 10) and intact controls (IN; n = 9). Myosin was isolated from the left and right ventricles and separated into its respective heavy chain components (designated as alpha and beta) by SDS-PAGE. The resulting gels were scanned with a laser scanning densitometer to obtain relative concentrations of these two heavy chains. The left ventricles of the ST rats had a significantly higher (p < 0.05) alpha to beta ratio (10.89) than the intact controls (4.20), while the right ventricle of the ST rats had a significantly lower (p < 0.05) alpha to beta ratio (7.49) relative to intact controls (13.62). The left and right ventricular weight to body weight ratios were not different in ST compared to IN. Additionally, there were significant within group differences (p < 0.05) between the alpha and beta MyHC ratios for the left and right ventricles. These data suggest that 1) spinal transection causes remodeling of the right and left ventricles and 2) the two ventricles do not remodel as a unit.