Mechanism of the E2 to E1 transition in Ca2+ pump revealed by crystal structures of gating residue mutants

Ca2+-ATPase of sarcoplasmic reticulum (SERCA1a) pumps two Ca2+ per ATP hydrolyzed from the cytoplasm and two or three protons in the opposite direction. In the E2 state, after transferring Ca2+ into the lumen of sarcoplasmic reticulum, all of the acidic residues that coordinate Ca2+ are thought to b...

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Published in	Proceedings of the National Academy of Sciences - PNAS Vol. 115; no. 50; pp. 12722 - 12727
Main Authors	Tsunekawa, Naoki, 恒川直樹, Ogawa, Haruo, 小川治夫, Tsueda, Junko, Akiba, Toshihiko, 秋葉俊彦, Toyoshima, Chikashi, 豊島近
Format	Journal Article
Language	English
Published	National Academy of Sciences 11.12.2018
Subjects	Biological Sciences
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Abstract	Ca2+-ATPase of sarcoplasmic reticulum (SERCA1a) pumps two Ca2+ per ATP hydrolyzed from the cytoplasm and two or three protons in the opposite direction. In the E2 state, after transferring Ca2+ into the lumen of sarcoplasmic reticulum, all of the acidic residues that coordinate Ca2+ are thought to be protonated, including the gating residue Glu309. Therefore a Glu309Gln substitution is not expected to significantly perturb the structure. Here we report crystal structures of the Glu309Gln and Glu309Ala mutants of SERCA1a under E2 conditions. The Glu309Gln mutant exhibits, unexpectedly, large structural rearrangements in both the cytoplasmic and transmembrane domains, apparently uncoupling them. However, the structure definitely represents E2 and, together with the help of quantum chemical calculations, allows us to postulate a mechanism for the E2 → E1 transition triggered by deprotonation of Glu309.
AbstractList	In the E2 → E1 transition of Ca 2+ -ATPase, low-affinity Ca 2+ -binding sites are converted to high affinity by releasing multiple protons bound to some of the Ca 2+ -coordinating residues. This is one of the transitions comprised of very large and complex structural changes, whose sequence of events remains unknown. Two mutant crystal structures of Glu309, the gating residue to cytoplasmic Ca 2+ , reveal how such a transition takes place and what is the critical structural component pertinent to the E2 state. Ca 2+ -ATPase of sarcoplasmic reticulum (SERCA1a) pumps two Ca 2+ per ATP hydrolyzed from the cytoplasm and two or three protons in the opposite direction. In the E2 state, after transferring Ca 2+ into the lumen of sarcoplasmic reticulum, all of the acidic residues that coordinate Ca 2+ are thought to be protonated, including the gating residue Glu309. Therefore a Glu309Gln substitution is not expected to significantly perturb the structure. Here we report crystal structures of the Glu309Gln and Glu309Ala mutants of SERCA1a under E2 conditions. The Glu309Gln mutant exhibits, unexpectedly, large structural rearrangements in both the cytoplasmic and transmembrane domains, apparently uncoupling them. However, the structure definitely represents E2 and, together with the help of quantum chemical calculations, allows us to postulate a mechanism for the E2 → E1 transition triggered by deprotonation of Glu309. Ca2+-ATPase of sarcoplasmic reticulum (SERCA1a) pumps two Ca2+ per ATP hydrolyzed from the cytoplasm and two or three protons in the opposite direction. In the E2 state, after transferring Ca2+ into the lumen of sarcoplasmic reticulum, all of the acidic residues that coordinate Ca2+ are thought to be protonated, including the gating residue Glu309. Therefore a Glu309Gln substitution is not expected to significantly perturb the structure. Here we report crystal structures of the Glu309Gln and Glu309Ala mutants of SERCA1a under E2 conditions. The Glu309Gln mutant exhibits, unexpectedly, large structural rearrangements in both the cytoplasmic and transmembrane domains, apparently uncoupling them. However, the structure definitely represents E2 and, together with the help of quantum chemical calculations, allows us to postulate a mechanism for the E2 → E1 transition triggered by deprotonation of Glu309.
Author	Ogawa, Haruo Akiba, Toshihiko 恒川直樹小川治夫 Tsueda, Junko Tsunekawa, Naoki 秋葉俊彦 Toyoshima, Chikashi 豊島近
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Contributed by Chikashi Toyoshima, October 24, 2018 (sent for review September 7, 2018; reviewed by Kathleen J. Sweadner and Howard S. Young) Reviewers: K.J.S., Massachusetts General Hospital and Harvard Medical School; and H.S.Y., University of Alberta. Author contributions: C.T. designed research; N.T., H.O., J.T. and C.T. performed research; J.T. and C.T. made crystals; H.O. made atomic models; T.A. contributed analytic tools; and C.T. wrote the paper.
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Title	Mechanism of the E2 to E1 transition in Ca2+ pump revealed by crystal structures of gating residue mutants
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