TY - JOUR T1 - Viral expression of a SERCA2a-activating PLB mutant improves calcium cycling and synchronicity in dilated cardiomyopathic hiPSC-CMs JF - bioRxiv DO - 10.1101/699975 SP - 699975 AU - Daniel R. Stroik AU - Delaine K. Ceholski AU - Justyna Mleczko AU - Paul F. Thanel AU - Philip A. Bidwell AU - Joseph M. Autry AU - Razvan L. Cornea AU - David D. Thomas Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/09/08/699975.abstract N2 - There is increasing momentum toward the development of gene therapy for heart failure (HF), cardiomyopathy, and other progressive cardiac diseases that correlate with impaired calcium (Ca2+) transport and reduced contractility. We have used FRET between fluorescently-tagged SERCA2a (the cardiac Ca2+ pump) and PLB (its ventricular peptide inhibitor) to test directly the effectiveness of loss-of-inhibition/gain-of-binding (LOI/GOB) PLB mutants (PLBM) that were engineered to compete with the binding of inhibitory wild type PLB (PLBWT). Our therapeutic strategy is to relieve PLBWT inhibition of SERCA2a by utilizing the reserve adrenergic capacity of PLB to enhance baseline cardiac contractility. Using a FRET assay, we determined that the combination of a LOI PLB mutation (L31A) and a GOB PLB mutation (I40A) results in a novel engineered LOI/GOB PLBM (L31A/I40A) that effectively competes with PLBWT binding to cardiac SERCA2a in HEK293-6E cells. We demonstrated that co-expression of L31A/I40A-PLBM enhances SERCA Ca-ATPase activity by increasing enzyme Ca2+ affinity (1/KCa) in PLBWT-inhibited HEK cell homogenates. For an initial assessment of PLBM physiological effectiveness, we used human induced pluripotent stem cell derived cardiomyocytes (hiPSC-CMs) from a healthy individual. In this system, we observed that adeno-associated virus 2 (rAAV2)-driven expression of L31A/I40A-PLBM enhances the amplitude of SR Ca2+ release and the rate of SR Ca2+ re-uptake. To assess therapeutic potential, we used an hiPSC-CM model of dilated cardiomyopathy (DCM) containing PLB mutation R14del, where we observed that rAAV2-driven expression of L31A/I40A-PLBM rescues arrhythmic Ca2+ transients and alleviates decreased Ca2+ transport. Based on these results, PLBM transgene expression is a promising gene therapy strategy for cardiomyopathies associated with impaired Ca2+ transport and decreased contractility.Ca2+(calcium)B2M(β2-microglobulin)DCM(dilated cardiomyopathy)ER(endoplasmic reticulum)FLT(fluorescence lifetime)FRET(fluorescence resonance energy transfer)GOB(gain of binding function)GFP(green fluorescent protein)hiPSC-CM(human induced pluripotent stem cell-derived cardiomyocyte)HEK(human embryonic kidney)HF(heart failure)LOI(loss of inhibitory function)mAb(monoclonal antibody)miRNA(microRNA)pAb(polyclonal antibody)PLB(phospholamban)PLBM(phospholamban mutant)PLBWT(wild type phospholamban)rAAV(recombinant adeno-associated virus)RFP(red fluorescent protein)SERCA2a(sarcoendoplasmic reticulum calcium ATPase 2a)SR(sarcoplasmic reticulum) ER -