Treadmill running increases the calcium sensitivity of myofilaments in diabetic rats

Abstract

The cardiovascular benefits of regular exercise are unequivocal, yet patients with type 2 diabetes respond poorly to exercise due to a reduced cardiac reserve. The contractile response of diabetic cardiomyocytes to b-adrenergic stimulation is attenuated, which may result in altered myofilament calcium sensitivity and posttranslational modifications of cardiac troponin I (cTnI). Treadmill running increases myofilament calcium sensitivity in nondiabetic rats, and thus we hypothesized that endurance training would increase calcium sensitivity of diabetic cardiomyocytes and alter site-specific phosphorylation of cTnI. Calcium sensitivity, or pCa50, was measured in Zucker diabetic fatty (ZDF), nondiabetic (nDM), and diabetic (DM) rat hearts after 8 wk of either a sedentary (SED) or progressive treadmill running (TR) intervention. Skinned cardiomyocytes were connected to a capacitance-gauge transducer and a torque motor to measure force as a function of pCa (−log[Ca2 þ ]). Specific phospho-sites on cTnI and O-GlcNAcylation were quantified by immunoblot and total protein phosphorylation by fluorescent gel staining (ProQ Diamond). The novel finding in this study was that training increased pCa50 in both DM and nDM cardiomyocytes (P = 0.009). Phosphorylation of cTnI amino acid residues Ser23/24, a crucial protein kinase A site, and Threonine (Thr)144 was lower in DM hearts, but there was no effect of training on site-specific phosphorylation. In addition, total phosphorylation and O-GlcNAcylation levels were not different between SED and TR groups. These findings suggest that regular exercise may benefit the diabetic heart by specifically targeting myofilament contractile function.