Phlpp1 is induced by estrogen in osteoclasts and its loss in Ctsk-expressing cells does not protect against ovariectomy-induced bone loss

Prior studies demonstrated that deletion of the protein phosphatase Phlpp1 in Ctsk-Cre expressing cells enhances bone mass, characterized by diminished osteoclast activity and increased coupling to bone formation. Due to non-specific expression of Ctsk-Cre, the definitive mechanism for this observat...

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Bibliographic Details
Published in:PloS one 2021-06, Vol.16 (6), p.e0251732-e0251732
Main Authors: Hanson, Marcelline K, Karkache, Ismael Y, Molstad, David H. H, Norton, Andrew A, Mansky, Kim C, Bradley, Elizabeth W
Format: Article
Language:English
Subjects:
Aging
Aging (natural)
Antibodies
Biology and Life Sciences
Biomedical materials
Bone loss
Bone mass
Bone resorption
Bone surgery
Bones
Cancellous bone
Cortical bone
Data analysis
Density
Editing
Engineering and Technology
Estrogens
Fractures
Growth factors
Hormone replacement therapy
Immunoglobulin G
Insulin
Insulin-like growth factor-binding protein 4
Laboratory animals
Medicine and Health Sciences
Menopause
Oophorectomy
Orthopedics
Osteoclasts
Osteoporosis
Ovariectomy
Phosphatase
Phosphatases
Properties
Proteins
Reviews
Spine
Stem cells
Surgery
Vertebrae
Womens health
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Summary:Prior studies demonstrated that deletion of the protein phosphatase Phlpp1 in Ctsk-Cre expressing cells enhances bone mass, characterized by diminished osteoclast activity and increased coupling to bone formation. Due to non-specific expression of Ctsk-Cre, the definitive mechanism for this observation was unclear. To further define the role of bone resorbing osteoclasts, we performed ovariectomy (Ovx) and Sham surgeries on Phlpp1 cKO.sub.Ctsk and WT mice. Micro-CT analyses confirmed enhanced bone mass of Phlpp1 cKO.sub.Ctsk Sham females. In contrast, Ovx induced bone loss in both groups, with no difference between Phlpp1 cKO.sub.Ctsk and WT mice. Histomorphometry demonstrated that Ovx mice lacked differences in osteoclasts per bone surface, suggesting that estradiol (E2) is required for Phlpp1 deficiency to have an effect. We performed high throughput unbiased transcriptional profiling of Phlpp1 cKO.sub.Ctsk osteoclasts and identified 290 differentially expressed genes. By cross-referencing these differentially expressed genes with all estrogen response element (ERE) containing genes, we identified IGFBP4 as potential estrogen-dependent target of Phlpp1. E2 induced PHLPP1 expression, but reduced IGFBP4 levels. Moreover, genetic deletion or chemical inhibition of Phlpp1 was correlated with IGFBP4 levels. We then assessed IGFBP4 expression by osteoclasts in vivo within intact 12-week-old females. Modest IGFBP4 immunohistochemical staining of TRAP.sup.+ osteoclasts within WT females was observed. In contrast, TRAP.sup.+ bone lining cells within intact Phlpp1 cKO.sub.Ctsk females robustly expressed IGFBP4, but levels were diminished within TRAP.sup.+ bone lining cells following Ovx. These results demonstrate that effects of Phlpp1 conditional deficiency are lost following Ovx, potentially due to estrogen-dependent regulation of IGFBP4.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0251732