Redox-Dependent Bone Alkaline Phosphatase Dysfunction Drives Part of the Complex Bone Phenotype in Mice Deficient for <i>Memo1</i>.

Details

Serval ID
serval:BIB_586242339713
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Redox-Dependent Bone Alkaline Phosphatase Dysfunction Drives Part of the Complex Bone Phenotype in Mice Deficient for <i>Memo1</i>.
Journal
JBMR plus
Author(s)
Moor M.B., Ramakrishnan S.K., Legrand F., Dolder S., Siegrist M., Durussel F., Centeno G., Firsov D., Hynes N.E., Hofstetter W., Bonny O.
ISSN
2473-4039 (Print)
ISSN-L
2473-4039
Publication state
Published
Issued date
07/2018
Peer-reviewed
Oui
Volume
2
Number
4
Pages
195-205
Language
english
Notes
Publication types: Journal Article
Publication Status: ppublish
Abstract
Mediator of ErbB2-driven cell Motility 1 (MEMO1) is an intracellular redox protein that integrates growth factors signaling with the intracellular redox state. We have previously reported that mice lacking <i>Memo1</i> displayed higher plasma calcium levels and other alterations of mineral metabolism, but the underlying mechanism was unresolved and the bone phenotype was not described. Here, we show that Cre/lox-mediated MEMO1 deletion in the whole body of C57Bl/6 mice (Memo cKO) leads to severely altered trabecular bone and lower mineralization, with preserved osteoblast and osteoclast number and activity, but altered osteoblast response to epidermal growth factor (EGF) and FGF2. More strikingly, Memo cKO mice display decreased alkaline phosphatase (ALP) activity in serum and in bone, while <i>ALPL</i> expression level is unchanged. Bone intracellular redox state is significantly altered in Memo cKO mice and we inferred that ALP dimerization was reduced in Memo cKO mice. Indeed, despite similar ALP oxidation, we found increased ALP sensitivity to detergent in Memo cKO bone leading to lower ALP dimerization capability. Thus, we report a severe bone phenotype and dysfunctional bone ALP with local alteration of the redox state in Memo cKO mice that partially mimics hypophosphatasia, independent of <i>ALPL</i> mutations. These findings reveal Memo as a key player in bone homeostasis and underline a role of bone redox state in controlling ALP activity.
Keywords
Alkaline phosphatase, Hypophosphatasia, MEMO1, Redox
Pubmed
Open Access
Yes
Funding(s)
Swiss National Science Foundation / Programmes
Other / AIRG-Suisse
Create date
17/07/2018 13:04
Last modification date
17/09/2020 8:23
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