A fusion protein tethering SERCA2a with PLB (SER-20G-PLB) retained a fully active Ca2+ pump with a K(Ca) of 0.29 μM, similar to co-expressed WT-SERCA2a and WT-PLB (0.30 μM).
An engineered SERCA2a-PLB fusion protein reveals that SERCA2a regulation involves Ca2+-dependent equilibria of PLB association/dissociation and pentamer assembly.
Absolute Event Rate: 0.29% vs 0.3%
To study PLB (phospholamban) inhibition of the cardiac Ca(2+) pump SERCA2a (sarcoplasmic/endoplasmic reticulum Ca(2+)-ATPase 2a), a fusion protein (SER-20G-PLB) was engineered by tethering SERCA2a with PLB through a 20-glycine residue chain, allowing the PLB tether to either bind to or dissociate from the inhibition site on SERCA2a. When expressed in insect cells, SER-20G-PLB produced active Ca(2+) uptake, which was stimulated by the anti-PLB antibody, both similar to that which occurred with the control sample co-expressing WT (wild-type)-SERCA2a and WT-PLB. The K(Ca) values of Ca(2+)-dependent ATPase were similar for SER-20G-PLB (0.29±0.02 μM) and for the control sample (0.30±0.02 μM), both greater than 0.17±0.01 μM for WT-SERCA2a expressed alone. Thus SER-20G-PLB retains a fully active Ca(2+) pump, but its apparent Ca(2+) affinity was decreased intrinsically by tethered PLB at a 1:1 molar stoichiometry. Like WT-PLB, SER-20G-PLB ran as both monomers and homo-pentamers on SDS/PAGE. As Ca(2+) concentrations increase from 0 to the micromolar range, the proportion of non-inhibiting pentamers increased from 32% to 52%, suggesting that Ca(2+) activation of the pump completely dissociates the PLB tether from the inhibition site on SERCA2a, with concurrent association of PLB pentamers. Collectively, the regulation of SERCA2a is achieved through the Ca(2+)-dependent equilibria involving PLB association and dissociation from SERCA2a, and assembling and disassembling of SER-20G-PLB pentamers.
Zhenhui Chen (Wed,) conducted a other in Cardiac Ca2+ pump regulation. SER-20G-PLB fusion protein vs. WT-SERCA2a and WT-PLB co-expression was evaluated on K(Ca) values of Ca(2+)-dependent ATPase. A fusion protein tethering SERCA2a with PLB (SER-20G-PLB) retained a fully active Ca2+ pump with a K(Ca) of 0.29 μM, similar to co-expressed WT-SERCA2a and WT-PLB (0.30 μM).
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