Abstract
To study the functional consequences of various cardiomyopathic mutations in human cardiac alpha-tropomyosin (Tm), a method of depletion/reconstitution of native Tm and troponin (Tn) complex (Tm-Tn) in cardiac myofibril preparations has been developed. The endogenous Tm-Tn complex was selectively removed from myofibrils and replaced with recombinant wild-type or mutant proteins. Successful depletion and reconstitution steps were verified by SDS-gel electrophoresis and by the loss and regain of Ca2+-dependent regulation of ATPase activity. Five Tm mutations were chosen for this study: the hypertrophic cardiomyopathy (HCM) mutations E62Q, E180G, and L185R and the dilated cardiomyopathy (DCM) mutations E40K and E54K. Through the use of this new depletion/reconstitution method, the functional consequences of these mutations were determined utilizing myofibrillar ATPase measurements. The results of our studies showed that 1) depletion of >80% of Tm-Tn from myofibrils resulted in a complete loss of the Ca2+-regulated ATPase activity and a significant loss in the maximal ATPase activity, 2) reconstitution of exogenous wild-type Tm-Tn resulted in complete regain in the calcium regulation and in the maximal ATPase activity, and 3) all HCM-associated Tm mutations increased the Ca2+ sensitivity of ATPase activity and all had decreased abilities to inhibit ATPase activity. In contrast, the DCM-associated mutations both decreased the Ca2+ sensitivity of ATPase activity and had no effect on the inhibition of ATPase activity. These findings have demonstrated that the mutations which cause HCM and DCM disrupt discrete mechanisms, which may culminate in the distinct cardiomyopathic phenotypes.
Highlights
The average maximal and minimal activities with S.D. are shown with symbols indicating significance values, determined by SigmaPlot analysis software (Sigma)
The cooperativity of ATPase activity is shown as the Hill coefficient, and the percentage of Tm, after normalization to PCM, is shown for all myofibrils utilized for the ATPase assays
The data presented here provide the first report of the usage of myofibrillar ATPase activity assays to assess the effects of cardiomyopathycausing mutations in Tm, utilizing a depletion/reconstitution technique
Summary
Method for TmTn Reconstitution into Depleted Myofibrils—To assess the effects of reconstitution of exogenous Tm-Tn on the depleted myofibrils and to optimize the conditions for the best reconstitution, DM were incubated with various concentrations of recombinant ASWT Tm-Tn. With 3.6 M Tm-Tn treatment, the ATPase activity in the presence of Ca2ϩ was 69 Ϯ 8.3 nmol Pi/mg/min, and the activity in the absence of Ca2ϩ was 8 Ϯ 6.2 nmol Pi/mg/min. When the depleted myofibrils were treated with 4.5, 5.4, or 6.8 M Tm-Tn, the ATPase activities in the presence of Ca2ϩ were 80 Ϯ 13.8, Ϯ 21.8, and Ϯ 6.1 nmol Pi/mg/min, respectively; the ATPase activities in the absence of Ca2ϩ were 11 Ϯ 2.8, 11 Ϯ 4.8, and 11 Ϯ 2.8 nmol Pi/mg/min, respectively. The amount of activation and inhibition was not significantly different from PCM, the values for 4.5 M Tm-Tn was the closest to that of PCM, and qualitative analysis suggests that when myofibrils are treated with [Tm-Tn] greater than 4.5 M, the activities are higher than PCM in the presence of Ca2ϩ. 4.5 M [Tm-Tn] was chosen for all other reconstituted myofibrillar ATPase activity experiments
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