Effects of Mutant and Antisense RNA of Phospholamban on SR Ca-ATPase Activity and Cardiac Myocyte Contractility
نویسندگان
چکیده
Background—The delayed cardiac relaxation in failing hearts has been attributed to a reduced activity of sarcoplasmic reticulum Ca-ATPase (SERCA2). Phospholamban (PLB) inhibits SERCA2 activity and is therefore a potential target to improve the cardiac performance in heart failure. Methods and Results—Mutants of PLB (Adv/mPLB) or antisense RNA of PLB (Adv/asPLB) was expressed in cardiac myocytes by recombinant adenovirus, and their effects on SERCA2 activity and myocyte contractility were studied. One mPLB, K3E/R14E, pentamerized with endogenous PLB in neonatal myocytes and resulted in a 45% increase in the affinity of SERCA2 for Ca and 27% faster diastolic Ca decline as determined by SR Ca uptake assays and by indo 1–facilitated Ca transient measurement, respectively. Edge-detection analysis of adult myocyte contractility showed a 74% increase in fractional shortening, accompanied by 115% increase in velocity of relengthening and 25% decrease in time to half-maximal relengthening. In parallel, infection of neonatal cardiac myocytes by Adv/asPLB decreased the endogenous PLB level by 54%, which was associated with a 35% increase in Ca affinity of SERCA2 and 21% faster diastolic Ca decline. However, in adult cardiac myocytes, Adv/asPLB failed to significantly alter the endogenous PLB level, the SERCA2 activity, or most of the contractile parameters. Conclusions—K3E/R14E is a dominant negative mutant of PLB that disrupts the structural integrity and function of the endogenous PLB and consequently enhances SERCA2 activity and myocyte contractility. In neonatal myocytes, the decrease in steady-state abundance of PLB by asPLB also leads to increased SERCA2 activity. (Circulation. 1999;100:974-980.)
منابع مشابه
Effects of mutant and antisense RNA of phospholamban on SR Ca(2+)-ATPase activity and cardiac myocyte contractility.
BACKGROUND The delayed cardiac relaxation in failing hearts has been attributed to a reduced activity of sarcoplasmic reticulum Ca(2+)-ATPase (SERCA2). Phospholamban (PLB) inhibits SERCA2 activity and is therefore a potential target to improve the cardiac performance in heart failure. METHODS AND RESULTS Mutants of PLB (Adv/mPLB) or antisense RNA of PLB (Adv/asPLB) was expressed in cardiac my...
متن کاملEnhanced myocyte contractility and Ca handling in a calcineurin transgenic model of heart failure
21 Objective: Impaired myocyte Ca handling is a common characteristic of failing hearts and increases in calcineurin activity, a 21 Ca -sensitive phosphatase, have been implicated in heart failure phenotype. Transgenic mice with cardiac-specific expression of an 21 active form of calcineurin display depressed function, hypertrophy and heart failure. We examined whether defects in cardiomyocyte ...
متن کاملOverexpression of sarcolipin decreases myocyte contractility and calcium transient.
OBJECTIVE Sarcolipin (SLN) is a novel 31-amino-acid protein associated with the sarcoplasmic reticulum (SR) whose function in cardiac muscle is poorly defined. In this study, we tested the hypothesis that SLN is a regulator of SR Ca(2+) transport function by overexpressing SLN in adult rat ventricular myocytes which express low levels of SLN. METHODS Expression of SLN mRNA in rat tissues was ...
متن کاملPhosphodiesterase type 3A regulates basal myocardial contractility through interacting with sarcoplasmic reticulum calcium ATPase type 2a signaling complexes in mouse heart.
RATIONALE cAMP is an important regulator of myocardial function, and regulation of cAMP hydrolysis by cyclic nucleotide phosphodiesterases (PDEs) is a critical determinant of the amplitude, duration, and compartmentation of cAMP-mediated signaling. The role of different PDE isozymes, particularly PDE3A vs PDE3B, in the regulation of heart function remains unclear. OBJECTIVE To determine the r...
متن کاملPhospholamban-dependent effects of C12E8 on calcium transport and molecular dynamics in cardiac sarcoplasmic reticulum.
We have studied the effects of the nonionic detergent C12E8 on Ca-ATPase enzymatic activity and oligomeric state (detected by time-resolved phosphorescence anisotropy, TPA) in skeletal and cardiac sarcoplasmic reticulum (SR). In skeletal, SR, C12E8 inhibits the CA-ATPase, both at high (micromolar and above) and low (submicromolar) Ca. In cardiac SR, C12E8 inhibits at high Ca but activates at lo...
متن کامل