Insulin Receptor deletion in S100a4-lineage cells accelerates age-related bone loss

Insulin Receptor deletion in S100a4-lineage cells accelerates age-related bone loss

Type I and Type II Diabetes dramatically impair skeletal health. Altered Insulin Receptor (IR) signaling is a common feature of both diseases, and insulin has potent bone anabolic functions. Several previous studies have demonstrated that loss of IR in bone cells results in disrupted bone homeostasi...

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Bibliographic Details
Published in:Bone Reports Vol. 10; p. 100197
Main Authors: Studentsova, Valentina, Knapp, Emma, Loiselle, Alayna E
Format: Journal Article
Language:English
Published: United States Elsevier 01-06-2019
Subjects:
Aging
S100a4
Bone
Bone homeostasis
Insulin receptor
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Summary:Type I and Type II Diabetes dramatically impair skeletal health. Altered Insulin Receptor (IR) signaling is a common feature of both diseases, and insulin has potent bone anabolic functions. Several previous studies have demonstrated that loss of IR in bone cells results in disrupted bone homeostasis during early post-natal growth. Here we have deleted IR in S100a4-lineage cells (IRcKO ) and assessed the effects on bone homeostasis in both young (15 weeks) and older adult (48 weeks) mice. S100a4-Cre has previously been shown to target the perichondrium during bone development, and here we show that S100a4 is expressed by adult trabecular and cortical bone cells, and that S100a4-Cre effectively targets adult bone, resulting in efficient deletion of IRβ. Deletion of IRβ in S100a4-lineage cells does not affect initial bone acquisition or homeostasis with no changes in cortical, trabecular or mechanical properties at 15-weeks of age, relative to wild type (WT) littermates. However, by 48-weeks of age, IRcKO mice display substantial declines in trabecular bone volume, bone volume fraction and torsional rigidity, relative to age-matched WT controls. This work establishes the utility of using S100a4-cre to target bone and demonstrates that IRβ in S100a4-lineage cells is required for maintenance of bone homeostasis in adult mice.
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ISSN:2352-1872
2352-1872
DOI:10.1016/j.bonr.2019.100197