Myosin heavy chain isoform expression in the failing and nonfailing human heart.

Abstract

In the heart, the relative proportions of the 2 forms of the motor protein myosin heavy chain (MyHC) have been shown to be affected by a wide variety of pathological and physiological stimuli. Hearts that express the faster MyHC motor protein, alpha, produce more power than those expressing the slower MyHC motor protein, beta, leading to the hypothesis that MyHC isoforms play a major role in the determination of cardiac contractility. We showed previously that a significant amount of alphaMyHC mRNA is expressed in nonfailing human ventricular myocardium and that alphaMyHC mRNA expression is decreased 15-fold in end-stage failing left ventricles. In the present study, we determined the MyHC protein isoform content of human heart samples of known MyHC mRNA composition. We demonstrate that alphaMyHC protein was easily detectable in 12 nonfailing hearts. alphaMyHC protein represented 7.2+/-3.2% of total MyHC protein (compared with approximately 35% of the MyHC mRNA), suggesting that translational regulation may be operative; in contrast, there was effectively no detectable alphaMyHC protein in the left ventricles of 10 end-stage failing human hearts.