An N-terminal Ca2+-binding motif regulates the secretory pathway Ca2+/Mn2+-transport ATPase SPCA1

An N-terminal Ca2+-binding motif regulates the secretory pathway Ca2+/Mn2+-transport ATPase SPCA1

The Ca2+/Mn2+ transport ATPases 1a and 2 (SPCA1a/2) are closely related to the sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA) and are implicated in breast cancer and Hailey–Hailey skin disease. Here, we purified the human SPCA1a/2 isoforms from a yeast recombinant expression system and compared th...

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Published in:The Journal of biological chemistry Vol. 294; no. 19; pp. 7878 - 7891
Main Authors: Chen, Jialin, Smaardijk, Susanne, Mattelaer, Charles-Alexandre, Pamula, Filip, Vandecaetsbeek, Ilse, Vanoevelen, Jo, Wuytack, Frank, Lescrinier, Eveline, Eggermont, Jan, Vangheluwe, Peter
Format: Journal Article
Language:English
Published: 11200 Rockville Pike, Suite 302, Rockville, MD 20852-3110, U.S.A Elsevier Inc 10-05-2019
American Society for Biochemistry and Molecular Biology
Subjects:
breast cancer
calcium ATPase
calcium transport
Golgi
Hailey–Hailey disease
ion homeostasis
manganese
Membrane Biology
membrane transporter reconstitution
protein purification
proteoliposomes
membrane transporter reconstitution
calcium ATPase
ion homeostasis
protein purification
proteoliposomes
breast cancer
Golgi
manganese
Hailey–Hailey disease
calcium transport
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Summary:The Ca2+/Mn2+ transport ATPases 1a and 2 (SPCA1a/2) are closely related to the sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA) and are implicated in breast cancer and Hailey–Hailey skin disease. Here, we purified the human SPCA1a/2 isoforms from a yeast recombinant expression system and compared their biochemical properties after reconstitution. We observed that the purified SPCA1a displays a lower Ca2+ affinity and slightly lower Mn2+ affinity than SPCA2. Remarkably, the turnover rates of SPCA1a in the presence of Mn2+ and SPCA2 incubated with Ca2+ and Mn2+ were comparable, whereas the turnover rate of SPCA1a in Ca2+ was 2-fold higher. Moreover, we noted an unusual biphasic activation curve for the SPCA1a ATPase and autophosphorylation activity, not observed with SPCA2. We also found that the biphasic pattern and low apparent ion affinity of SPCA1a critically depends on ATP concentration. We further show that the specific properties of SPCA1a at least partially depend on an N-terminal EF-hand–like motif, which is present only in the SPCA1a isoform and absent in SPCA2. This motif binds Ca2+, and its mutation lowered the Ca2+ turnover rate relative to that of Mn2+, increased substrate affinity, and reduced the level of biphasic activation of SPCA1a. A biochemical analysis indicated that Ca2+ binding to the N-terminal EF-hand–like motif promotes the activity of SPCA1a by facilitating autophosphorylation. We propose that this regulation may be physiologically relevant in cells with a high Ca2+ load, such as mammary gland cells during lactation, or in cells with a low ATP content, such as keratinocytes.
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Strategic Basic Research Ph.D. fellow at FWO supported by Grant 1S23217N.
Edited by Phyllis I. Hanson
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.RA118.006250