Structural basis for the high Ca²⁺ affinity of the ubiquitous SERCA2b Ca²⁺ pump
2009
Vandecaetsbeek, Ilse | Trekels, Mieke | De Maeyer, Marc | Ceulemans, Hugo | Lescrinier, Eveline | Raeymaekers, Luc | Wuytack, Frank | Vangheluwe, Peter
Sarco(endo)plasmic reticulum Ca²⁺ ATPase (SERCA) Ca²⁺ transporters pump cytosolic Ca²⁺ into the endoplasmic reticulum, maintaining a Ca²⁺ gradient that controls vital cell functions ranging from proliferation to death. To meet the physiological demand of the cell, SERCA activity is regulated by adjusting the affinity for Ca²⁺ ions. Of all SERCA isoforms, the housekeeping SERCA2b isoform displays the highest Ca²⁺ affinity because of a unique C-terminal extension (2b-tail). Here, an extensive structure-function analysis of SERCA2b mutants and SERCA1a2b chimera revealed how the 2b-tail controls Ca²⁺ affinity. Its transmembrane (TM) segment (TM11) and luminal extension functionally cooperate and interact with TM7/TM10 and luminal loops of SERCA2b, respectively. This stabilizes the Ca²⁺-bound E1 conformation and alters Ca²⁺-transport kinetics, which provides the rationale for the higher apparent Ca²⁺ affinity. Based on our NMR structure of TM11 and guided by mutagenesis results, a structural model was developed for SERCA2b that supports the proposed 2b-tail mechanism and is reminiscent of the interaction between the α- and β-subunits of Na⁺,K⁺-ATPase. The 2b-tail interaction site may represent a novel target to increase the Ca²⁺ affinity of malfunctioning SERCA2a in the failing heart to improve contractility.
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