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The transmembrane peptide DWORF activates SERCA2a via dual mechanisms

Ang Li, Samantha L. Yuen, Daniel R. Stroik, Evan Kleinboehl, Rǎzvan L. Cornea, David D. Thomas

2021Journal of Biological Chemistry36 citationsDOIOpen Access PDF

Abstract

uptake and myocyte contractility by displacing PLB from binding to SERCA2a. However, establishing DWORF's precise physiological role requires further investigation. In the present study, we developed cell-based FRET biosensor systems that can report on protein-protein interactions and structural changes in SERCA2a complexes with PLB and/or DWORF. To test the hypothesis that DWORF competes with PLB to occupy the SERCA2a-binding site, we transiently transfected DWORF into a stable HEK cell line expressing SERCA2a labeled with a FRET donor and PLB labeled with a FRET acceptor. We observed a significant decrease in FRET efficiency, consistent with a decrease in the fraction of SERCA2a bound to PLB. Surprisingly, we also found that DWORF also activates SERCA's enzymatic activity directly in the absence of PLB at subsaturating calcium levels. Using site-directed mutagenesis, we generated DWORF variants that do not activate SERCA, thus identifying residues P15 and W22 as necessary for functional SERCA2a-DWORF interactions. This work advances our mechanistic understanding of the regulation of SERCA2a by small transmembrane proteins and sets the stage for future therapeutic development in heart failure research.

Topics & Concepts

PeptideDual (grammatical number)Transmembrane proteinChemistryCell biologyBiophysicsBiochemistryBiologyReceptorPhilosophyLinguisticsCardiac electrophysiology and arrhythmiasReceptor Mechanisms and SignalingIon channel regulation and function