Involvement of the L6-7 Loop in SERCA1a Ca super(2+)-ATPase Activation by Ca super(2+) (or Sr super(2+)) and ATP

Involvement of the L6-7 Loop in SERCA1a Ca super(2+)-ATPase Activation by Ca super(2+) (or Sr super(2+)) and ATP

Wild-type (WT) and the double mutant D813A,D818A (ADA) of the L6-7 loop of SERCA1a were expressed in yeast, purified, and reconstituted into lipids. This allowed us to functionally study these ATPases by both kinetic and spectroscopic means, and to solve previous discrepancies in the published liter...

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Published in:The Journal of biological chemistry Vol. 279; no. 31; pp. 32125 - 32133
Main Authors: Lenoir, Guillaume, Picard, Martin, Moeller, Jesper V, Le Maire, Marc, Champeil, Philippe, Falson, Pierre
Format: Journal Article
Language:English
Published: 30-07-2004
Subjects:
Saccharomyces cerevisiae
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Summary:Wild-type (WT) and the double mutant D813A,D818A (ADA) of the L6-7 loop of SERCA1a were expressed in yeast, purified, and reconstituted into lipids. This allowed us to functionally study these ATPases by both kinetic and spectroscopic means, and to solve previous discrepancies in the published literature about both experimental facts and interpretation concerning the role of this loop in P-type ATPases. We show that in a solubilized state, the ADA mutant experiences a dramatic decrease of its calcium-dependent ATPase activity. On the contrary, reconstituted in a lipid environment, it displays an almost unaltered maximal calcium-dependent ATPase activity at high (millimolar) ATP, with an apparent affinity for Ca super(2+) altered only moderately (3-fold). In the absence of ATP, the true affinity of ADA for Ca super(2+) is, however, more significantly reduced (20-30-fold) compared with WT, as judged from intrinsic (Trp) or extrinsic (fluorescence isothiocyanate) fluorescence experiments. At low ATP, transient kinetics experiments reveal an overshoot in the ADA phosphorylation level primarily arising from the slowing down of the transition between the nonphosphorylated "E2" and "Ca sub(2)E1" forms of ADA. At high ATP, this slowing down is only partially compensated for, as ADA turnover remains more sensitive to orthovanadate than WT turnover. ADA ATPase also proved to have a reduced affinity for ATP in studies performed under equilibrium conditions in the absence of Ca super(2+), highlighting the long range interactions between L6-7 and the nucleotide-binding site. We propose that these mutations in L6-7 could affect protonation-dependent winding and unwinding events in the nearby M6 transmembrane segment.
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ISSN:0021-9258
1083-351X